如何利用导购APP,为自己赚取第一类永动机收益!
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时间:2018-06-09 05:05
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省大师怎么做?省大师app怎么赚钱?大赚师为你揭秘!
问:省大师是什么?答:省大师是一个购物不花钱,分享就赚钱的APP问:省大师具体怎么操作呢?答:具体操作分为两个部分:1、自己购物可以优惠50%—100%2、分享就可以赚钱问:如何通过省大师来免费购物?答:详细步骤:1、在淘宝选择好你要买的商品,复制商品的整个标题2、把标题粘贴到省大师APP领取商品优惠券,去淘宝购买这个商品3、购物完成后省大师APP会返还给你50%—100%的购物本金问:如何通过省大师来赚钱?答:推广省大师赚钱可以获得两大块收益1、推荐会员奖励,可以拿两级的各35%,和团队推荐奖励基金2、获得团队购物提成和团队购物提成基金只要别人购物你就赚钱,这是一份管道(被动)收入,管道建立好之后,后期就可以自动赚钱了&问:如何加入省大师呢?答:可以添加省大师运营商的微信:(注明:省大省,否则不通)&问:商家为什么要发布优惠券?答:商家为了冲销量打造爆款,提高在淘宝的搜索排名,所以商家发布优惠券活动。&问:商家的优惠券发布在哪里?答:所有的商家统一把优惠券发布在阿里旗下的阿里妈妈(淘宝客联盟)平台,推广者(淘宝客)直接在阿里妈妈平台优惠券商品推广。&问:商家的盈利在哪里?答:比如商家发布了2000个优惠券,当商家停止优惠券活动后,后边再去买这个商品的人就得需要按原价来购买,商家赚的是未来按原价购买这个商品人的钱。问:省大师平台的收入来自哪里?答:省大师平台的收入来自商家支付的推广佣金,商家设置好优惠券之后付推广佣金给推广者,不付佣金没人帮他推广。问:消费者可以在阿里妈妈平台直接领取优惠券吗?答:阿里妈妈平台不是直接给消费者开放的,是给推广者(淘宝客)开放的,消费者要想直接在阿里妈妈领取优惠券的话,流程比较繁琐,需要先注册淘宝客账号,获取自己的淘宝客链接,等等一系列的流程。切记一定要输入邀请码,然后加我微信:(备注:省大师,否则不通过)将会赠送给你一份【永远不缺精准流量】的顶级内幕资讯,价值巨大!每天仅限前10名!&问:省大师返还的购物本金来自哪里?答:省大师返还的购物本金来自于商家支付给省大师平台的推广佣金。&问:商家支付的推广佣金是多少?答:从5%—90%不等。问:省大师把佣金都返还给购物者了那省大师还赚钱吗?答:省大师返还的购物本金不是一次性返还的,是每天慢慢返还的,商家给省大师的佣金是每个月固定结算的,所以这里就有了一个时间差,这个时间差可以让省大师平台沉淀很多资金,这些沉淀的资金可以在资本市场获得更多的收益,这是一个良性循环。&问:为什么要做省大师呢?答:1、你平时在淘宝购物吗?&&&&&2、如果有一个可以给你优惠50%—100%的软件你会使用吗?&问:加入省大师如何推广呢?答:加入省大师运营商团队后,我们会手把手教你推广,我们有一套完整的推广流程,几乎是傻瓜式操作,每天按部就班就可以了。问:加入省大师需要多少钱呢?答:省大师的会员是99元,也就相当于你花99元就可以跟马云一起创业了。&问:如何加入省大师呢?答:可以添加省大师运营商的微信:(注明:省大省,否则不通)&问:省大师能做多久?答:只要淘宝不关门我们就可以一直做。问:省大师为什么要把推广返还给购物者?答:这是一个全新的商业模式,在当今的互联网时代有个庞大的用户之后,可以衍生出更多的生态模式,另外省大师是奔着上市去的,所以是大格局的平台。问:省大师适合那些人加入呢?答:想免费购物的、想创业的、想做分享经济的、想获得被动收入的、想兼职赚钱的、等等......问:省大师的模式合法吗?答:省大师采用的是二级分销,符合国家的法律,并且属于李总理提倡的分享经济&问:省大师未来的发展前景如何?答:每年阿里妈妈分出去的推广佣金有几百亿美金,2017淘宝双十一交易额达到1682.69亿元,这只是一天的交易额,所以未来的市场煤场庞大。更多好个人创业小项目请关注官网:外国人用两块磁铁制作出永动发电装置,真有那么神奇?-科技视频-搜狐视频
外国人用两块磁铁制作出永动发电装置,真有那么神奇?
推荐出品人手机赚钱软件哪个好?2017手机赚钱软件排行榜_手机赚钱app下载
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k任务手机版是一款做调查问卷赚钱的手机软件,在这里用户只需要在线进行做调查问卷就可以赚取相应的K币,K币可以兑换成现金,还可以快速进行
超级赚app是一款全新的手机做任务赚钱的软件,拥有超多简单快捷的任务,做完即可兑现领奖,十分强大。喜欢的朋友就来IT猫扑下载吧!应用简
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大量永动机技术
大量永动机技术
Bhaskara's Wheel 巴斯卡拉的车轮
Arabian Perpetuum Mobile 阿拉伯垂直移动
Typical asymmetric Wheel&&典型的非对称轮
Leupold's Rolling Ball Maschine&&Leupold的滚球机器
Ferguson's Anti Perpetuum Mobile& &弗格森的反垂直移动
Pierre de Maricourt& &皮埃尔德马里古
In ancient Greece we see no evidence of interest in perpetual motion.在古希腊,我们看到没有任何证据的兴趣永动机。 Greek knowledge of mechanisms was well developed, as evidenced by the Antykythera mechanism and by Heron's automata.希腊知识的机制已经十分发达,就证明了这Antykythera机制和苍鹭的自动机。 Natural sources of power like water wheels and the labor of slaves, were sufficient for the needs of Greek society. Mechanical ingenuity was channeled toward construction of mechanical toys and temple automata.天然来源的权力像水车轮和劳动的奴隶,有足够的需求希腊社会。力学的聪明才智是对建设输送机械玩具和寺庙机。 These often had the appearance of being self-moving, but were powered by hidden power sources such as falling water or sand.这些经常出现的自我运动,而是采用了隐藏的权力来源,如属于水或沙子。 Roman authors did not mention any attempt to construct a perpetual machine.罗马作者并没有提及任何企图建造一个永久的机器。 However, only a few texts about technology from 2000 years ago have survived.然而,只有少数几个有关技术法规从2000年前已经存活。
The idea of perpetual motion originated in the Orient.的想法永动机起源于东方。 The first description of a perpetual motion machine was found to be made by the Indian mathematician and astronomer Brahmagupta in 624.第一次描述永动机被发现了由印度数学家和天文学家婆罗摩笈多的624 。 In his Brahmasphutasiddhanta , he describes a perpetual motion device: &Make a wheel of light timber, with uniformly hollow spokes at equal intervals. Fill each spoke up to half with mercury and seal its opening situated in the rim. Set up the wheel so that its axle rests horizontally on two [upright] supports. Then the mercury runs upwards [in some] hollow spaces and downwards [in some others, as a result of which] the wheel rotates automatically forever.&在他的Brahmasphutasiddhanta ,他描述了一个永动机装置: “让一个车轮轻的木材,并均匀地在空心辐条平等的间隔。填写每个以高达50汞和印章开幕坐落在篮筐。设置让车轮它的轮轴在于横向两个[正派]支持。然后向上运行汞[一些]空地和向下[在另外一些,其结果是]车轮转动自动永远。 “ (transl. SR Sarma). 1) ( transl.简萨尔马) 。 1 )
The Sisyadhivrddhida Tantra by the Indian astronomer Lalla, written in 748, is the next treatise, where a comparable perpetual motion machine is described. 谭崔的Sisyadhivrddhida由印度天文学家拉拉,写748 ,是下一代的论文,在可比的永动机是形容。 Lalla also refers to a wheel with hollow spokes partly filled with mercury. 2)拉拉还提到一个车轮辐条的空心部分填充汞。 2 )
Around 1150, the Indian mathematician and astronomer Bhaskara described in his Siddhanta Siromani a wheel with containers of mercury around its circumference.大约1150 ,印度天文学家和数学家的巴斯卡拉中描述他的瓦希丹塔Siromani一个车轮与汞的容器周围围。 He says, &This machine rotates with great power because the mercury at one side of the axle is closer that at the other.& ( Klemm , S.7) 3) .他说, “这台机器转动的大国,因为汞在一方轴接近,在其他。 ” ( Klemm ,补7 ) 3 ) 。 Apparently he thought this would cause continual unbalance to sustain rotation.显然,他认为这将造成持续的不平衡,以维持旋转。 Supposedly he didn’t build and test the device, and many other authors did not make this final step as well.据称他没有建立和测试设备,以及其他许多作者并没有使这个最后一步的。
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Brahmagupta's Perpetuum 婆罗摩笈多的垂直
Mobile Principle 移动原理
Bhaskara's Perpetuum 巴斯卡拉的垂直
Mobile Principle 移动原理
Perpetuum Mobile 垂直移动
Principle from a 12th cty 原则上从第12 cty
Arabian manuscript 阿拉伯手稿
Since the 12th century, the principle of this machine was frequently incorporated into other perpetual motion proposals, and became part of the history of technology.自12世纪的原则,这台机器经常并入其他永动机的建议,并成为历史的一部分技术。 Even today inventors propose variants of this &overbalanced wheel&, often in complicated designs containing wheels with eccentric levers and masses attached to them.即使在今天发明者提出的变种这个“ overbalanced轮” ,往往是在复杂的设计载车轮偏心杠杆和群众重视他们。
We have reached the idea of the imitation of the PM naturae.我们已经达到了思想的模仿自然的PM 。 A wheel as a rotating device has similarity to cyclic events in nature, like years.一个车轮的旋转装置相似的循环事件的性质,如年。 Thus the wheel mechanism represents an esoteric and religious aspect that can be characterized by buzzwords like return, year's cycle, re-incarnation . Indian temples frequently display wheel symbols.因此,车轮机制是一个深奥和宗教方面的特点流行语想回报,一年的周期,再化身 。印度寺庙经常显示车轮的符号。 It seems as if the aspect of creating a machine that generates useful work was not the predominant aspect of the indian mathematicians, but to simulate an eternal cycle.好像方面创造一个机器,产生有益的工作,不是主要的方面,印度的数学家,但模拟一个永恒的循环。 The machine is to be regarded as a model for philosophical aspects, not for engineering tasks.该机器被视为是一种模式的哲学问题,而不是工程任务。
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A wheel symbol on the Indian Sanchi stupa. 一个车轮的象征印度桑奇佛塔。 From 自
Strzygowski Asiens bildende Kunst , 1930, fig. Strzygowski Asiens bildende艺术 , 1930年,无花果。 272, p.285 272 , p.285
Perpetual motion machines based on wheels with attached eccentric masses, shifting masses or containers filled with liquid are called indian , persian or arabian perpetual motion machines.永动机的基础上的机器附有车轮偏心群众,转移群众或容器装满液体被称为印度,波斯或阿拉伯永动机机器。
The middle ages' architect and master-builder Villard de Honnecourt (around 1235) seemed puzzled by the unsuccessful attempts of other perpetual motion machine inventors.在中世纪的建筑师和总建筑维拉德德Honnecourt (约1235 )似乎感到不解的尝试失败的其他永动机发明者。 To close the discussion and end the ignorance of others, he drew a machine both simple as ingenious, whose operating principle is based on an odd number of moveable heavy hammers mounted to the rim of a wheel:要关闭的讨论,并结束对他人的无知,他提请一台机器既简单,巧妙,其工作原理是基于一个奇数动产沉重的铁锤安装到边的一个车轮:
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Villard de Honnecourt's famous unbalanced wheel. 维拉德德Honnecourt著名的不平衡的车轮。 The original comment reads &Maint ior se sunt maistre dispute de faire torner une ruee par li seul. Ves ent si con en puet faire par mailes non pers ou par vif argent& 原来的评论写着“维护采收率本身必须遵守梅斯特尔争端的自由放任torner新英格兰大学ruee杆立涩。新村入口州市途中puet控制杆mailes放任非属欧银杆因子”
Villard’s reasoning isn’t entirely clear, but apparently he assumed that at the wheel would always have four hammers on one side of the axle, and three on the other side, keeping it in continual unbalance.维拉德的推理并不完全清楚,但显然他认为在方向盘总是有四个锤一方的轴,三的另一边,保持它在不断的不平衡。 Villard did not realize that the whole system would reach static equilibrium with three masses at either side and one in the middle hanging straight down.维拉德没有认识到整个系统将达到静力平衡的三个群众一方和一个中直吊下来。 Even some of today's perpetual motion inventors fall into the same trap.即使是一些今天的永动机发明者落入同样的陷阱。 This is what I call persistence of limited vision: eight hundred years have passed, and these lessons have not been learned!这就是我坚持要求有限的远见:八百年过去了,这些经验教训没有得到教训!
Renaissance Ideas文艺复兴时期的思想
Francisco di Georgio弗朗西斯科教堂Georgio
During the Renaissance interest in perpetual motion machines was widespread. For example, some drawings of perpetual motion machines by the architect and master-builder Francisco di Georgio have survived.在文艺复兴时期的兴趣永动机机器很普遍。例如,有些图纸永动机机器的主建筑师和建筑弗朗西斯科教堂Georgio已经存活。 A very fine example is this water-driven mill with an additional pump engine.一个非常很好的例子是水驱动轧机额外泵引擎。 (Ms. Ashburnham 361 fol. 36r, cf. Galluzi p. 136) (女士Ashburnham 361奥德耶克。 36r ,比照。 Galluzi第136页)
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Let's examine the details of this mechanism: This machine uses closed water circulation.让我们审查的细节,这一机制:此机采用封闭循环水。 Such machines are called recirculation mills or dry water mills .这种机器被称为再循环工厂或干水车 。 Since the water does not come from external sources, it was called aqua morta ie &dead water&.由于水不是来自外部来源,它被称为水morta即“死水” 。 In this example, falling water turns a water-wheel which drives the corn mill through a gear mechanism. To raise the water up again, a crankshaft and two levers drive a two-cylinder piston pump which lifts the water to the feeding canal of the water wheel.在这个例子中,属于水满水四轮驱动的玉米通过轧机齿轮机制。为了提高水了,曲轴和两个杠杆推动两缸柱塞泵的升降机水喂养管水车。
Di Georgio gave more than one example of these machines but we have to be careful.邸Georgio了一个以上的例子,这些机器,但我们必须要小心。 Some of the machines are impractical, but they may work.有些机器是不切实际的,但他们可能工作。 And of course, machine drawings like these also were made to impress the reader and to demonstrate the combination of many construction elements in a single device.当然,机器图纸喜欢这些还进行了读者留下深刻的印象,并表现出相结合的许多建筑元素在一个单一设备。
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In 1618 the English physicist and mystic Robert Fludd (1574 - 8 Sep. 1637) described a recirculation mill, which raised the water with a chain pump powered by a water wheel, driven by the same water!在1618年英国物理学家和神秘的罗伯特Fludd ( 年9月8日)介绍了再循环工厂,从而提高水的链泵采用水车带动下,同样的水! However, Fludd added his disclaimer, stating that this was the invention of a &certain italian& which was &being the unworkable repetition of an aged idea&.但是,他补充说Fludd声明,指出这是发明了“某些意大利” ,这是“是行不通的重复的老人的想法。 ” For details, cf.如需详细资料,比照。 the physics section.物理部分。
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In the middle of the eighteenth century the first systematic research on water powered machines was made in order to improve these devices.中十八世纪的第一个系统研究水动力的机器是为了提高这些装置。 250 years after Leonardo, machines driven by aqua morta were relegated to the scrapyard of technology. 250年后,莱昂纳多,机器驱动的水morta被降级到废料场的技术。 It wasn’t until the mid 1950s, until these were resurrected by Viktor Schauberger .但直到20世纪50年代中期之前,这些都是复活的维克托Schauberger 。 Under the name of &trout turbines& or &vortex turbines& they are still discussed today by Schauberger's followers.根据这项名为“鳟鱼涡轮机”或“涡轮涡”他们仍然今天讨论的Schauberger的追随者。 I've never heard of a working example…我从来没有听说过一个工作的例子...
Leonardo daVinci达芬奇
Apparently, di Georgio's machines were known to Leonardo da Vinci 4) who had a life-long interest in machines of all kinds, including perpetual motion machines.显然,二Georgio的机器据了解,达芬奇4 )谁了终身的兴趣,机器的各种,包括永动机机器。 Some of his drawings of recirculation mills with archimedian screws have survived.他的一些绘画的再循环厂与archimedian螺丝钉都幸免于难。 He described a complex mechanism using a wheel with mercury-filled containers. The Deutsches Museum in Munich has a reconstructed model on display.他描述一个复杂的机制,用车轮与汞填充的容器。在德意志博物馆在慕尼黑有一个重建的模型展出。 Leonardo was an excellent observer and knew the theory of machines quite well.莱昂纳多是一个极好的观察和认识理论的机器相当不错的。 Although the principle of conservation of energy was unknown at his time, Leonardo had a clear concept which came very close to it: &Falling water lifts the same amount of water, if we take the force of the impact into account [...], but from the power of the machine we have to subtract the friction losses in the bearings.&虽然原则的节约能源是未知的时间,莱昂纳多有一个明确的概念,它非常接近于它: “水降升降机相同数量的水,如果我们采取的力量影响到[...] ,而是来自权力的机器,我们必须减去摩擦损失的轴承。 “ ( Michal p.17). ( 科瓦奇第17页) 。 Sketches by Leonardo's hand of pure mechanical perpetua mobilia, which use rolling balls, are also known.素描的达芬奇的手的纯机械佩尔佩mobilia ,使用滚动球,也是众所周知的。
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Leonardo's rolling ball machines (cf. Wallace, Leonardo da Vinci , p.168) 达芬奇的滚球机器(参见华莱士,达芬奇 ,临168 )
Although Leonardo had a continuing interest in perpetual motion machines, he held a very skeptical opinion about the possibility of their practical implementation.虽然列奥纳多了继续关心永动机的机器,他举行了一次非常怀疑意见的可能性,其实际执行情况。 In one of Leonardo's sketchbooks we find a drawing illustrating Leonardo’s proof of the impossibility of an overbalanced wheel PM.在一个达芬奇的sketchbooks我们找到一个绘图说明达芬奇的证明是不可能的一个下午overbalanced轮。
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Leonardo's proof of the impossibility 达芬奇的证明不可能
of a mechanical PM with levers 机械与杠杆点
(cf. Cianchi p.83 / Cod. Madrid I, fol.145r.) (参见Cianchi临83 /鳕鱼。马德里我fol.145r 。 )
This drawing shows excellent insight into forces, torques and levers.这表明优秀的绘图深入部队,扭矩和杠杆。 The analysis of forces can be regarded as almost modern.分析部队可视为近现代。 Leonardo closed his considerations with the words: &O you researchers of perpetual motion, how many harebrained ideas have you created in this search. You may as well join the alchemists.&列奥纳多收他考虑的话: “啊,你研究的永动机,有多少轻率想法中创建的搜索结果。您可能也加入炼金。 ” ( Michal , p.17) ( 科瓦奇 ,第17页)
A Machine not being built机器没有内置
Even today, Agostino Ramelli (1531[?]-1608[?]) is regarded as an important engineer.即使在今天,阿戈斯蒂诺拉梅利( 1531 [ ? ] -1608 [ ? ] )被看作是一个重要的工程师。 His great opus Le diverse et artificiose machine is a rich treasure for historians of technology. There we find many modern mechanisms which are attributed to later times. Eg Ramelli invented ventilators and a pump, which today is named after its &inventor& Gaede's capsule pump .他的伟大作品等多种乐artificiose机是一个丰富的宝藏历史学家的技术。我们发现有许多现代的机制,这是由于后来倍。阿米巴拉梅利发明的通风和一个泵,它今天的名字命名,它的“发明” 盖德囊泵 。 The end of the renaissance and the baroque period were the heyday of perpetual motion proposals.结束的复兴和巴洛克时期的鼎盛时期永动机的建议。 But Ramelli was too much a practical engineer to fall victim to the idea.但是拉梅利太多实际的工程师牺牲品的想法。 We find no mention of it in his works.我们认为,没有提到在他的作品。 Or to be more precise, almost no mention of it.或更准确地说, 几乎没有提到它。 In chapter 43 he describes a wheel for raising water, which contains a mechanism to improve the power of the device. 43章中,他描述了一个车轮,提高水,其中包含一个机制,以改善电源的装置。 This mechanism is the classic overbalanced wheel.这一机制是典型的overbalanced车轮。 After a short description of the machine, Ramelli adds this disclaimer: &You should know that the interior of this wheel was designed to please a gentleman who requested me to do it because he thought that since the current of the river was too slow it should be aided by a wheel. Thus anyone can make use of it if he judges it suitable.&经过简短说明机器,拉梅利本声明说: “你应该知道,这种内部轮的目的是要请一个绅士谁要求我这样做,因为他认为,因为目前的河流过于缓慢,它应被资助的一个车轮。因此,任何人都可以利用它,如果他有合适的法官。 “
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A machine for levering water with 阿机利弗林水
a perpetual energy amplifier 永久能源放大器
永动机的机器不需要纯粹机械。 Between the middle ages and the present time many devices have been proposed which make use of magnetic, hydraulic, electrical or other forces.之间的中间年龄和目前许多设备已提出了利用磁场,液压,电气或其他力量。 And of course, often several principles have been combined in attempts to construct a successful perpetual motion machine.当然,常常几个原则,已被合并,企图建构一个成功的永动机。
Magnetic Perpetua Mobilia磁佩尔佩Mobilia
The first known magnetic PM proposal dates back to 1269.第一个已知的磁点建议可以追溯到1269年。 Pierre de Maricourt (also named Petrus Peregrinus) described a rotating device which uses the attraction force of several magnets.皮埃尔德马里古(也称为翠官)描述一个旋转装置,使用武力的吸引力的几个磁铁。
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Pierre de Maricourt's magnetic concept 皮埃尔德马里古磁场的概念
As magnetic effects were poorly understood at this time, this idea seemed plausible.由于磁场影响了解甚少在这个时候,这个想法似乎有道理。 Maricourt explained that he wasn’t proposing a machine to produce useful work, but rather a model to help understand how the planets move in their orbits.马里古解释说,他没有提出一个机器产生有益的工作,而是一个模型,以帮助了解如何移动行星在其轨道。 Here, the PMM is to be interpreted as a pure model or analogy of a natural phenomena.在这里,产品市场管理是被解释为一个纯粹的模型或模拟的自然现象。 Pierre de Maricourt thought that the magnetic lodestone was the lapis for which the alchemists searched.皮埃尔德马里古认为,天然磁石的磁性是青金石该炼金搜查。
As often happens in the history of science, in the process of doing one thing, even doing something misguided, one discovers other things which are useful or important.正如经常发生在科学史的过程中,做一件事,甚至做一些误导,一发现其他的东西是有用的或重要的。 Pierre’s goal of explaining planetary motion did not prevent him from discovering that little iron wires put onto a magnetic ball arranged themselves in lines comparable to the imaginary longitude lines of the celestial sphere.皮埃尔的目标是解释行星运动并没有阻止他发现,小铁丝放到磁球安排自己的线路比较虚经度线的天体。 Pierre also observed that magnetic lodestones which were put on little swimming wooden pieces always aligned in north-south direction.皮埃尔还指出,磁lodestones是放在木制的小件游泳始终排列在南北方向。 Pierre de Maricourt coined the expressions of the magnetic &north& and &south poles& and he was the first who wrote that opposite poles attract each other and like poles repel.皮埃尔德马里古创造了表达的磁性“北”和“南部极点” ,他是第一个谁写道,对面的电线杆吸引对方像极击退。
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Frontispiece of the Frontispiece的
Mathematical Magick 数学Magick
Bishop John Wilkins () who was a co-founder of the Royal Society, described in his book Mathematical Magick or the wonders that may be performed by mechanical geometry a simple magnetic PM, which was suggested by Johannes Taisnierus. 主教约翰威尔金斯 ( 1614年至1672年)谁是创始人之一的英国皇家学会,描述在他的书中Magick或数学的奇迹,可能是由机械完成的几何形状简单的磁下午,该建议是由约翰内斯Taisnierus 。 At the upper end of a ramp a magnetic lodestone 1) is mounted.在高端坡道磁场天然磁石1 )安装。 The r one which allows an iron ball to enter the upper ramp at the bottom and another hole at the top through which the ball can drop to a lower ramp which guides it back to the bottom of the upper ramp.坡道有两个开口,一个让铁球进入坡道上的底部和另一个洞上方通过该球会降到较低的坡道引导回底部的坡道上。
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Wilkins also provided an explanation, why this mechanism cannot work.威尔金斯还提供了一个解释,为什么这个机制不能工作。 Why should the ball drop through the upper opening instead of eventually flipping to the lodestone?为什么要辍学球上通过开放而不是最终翻转的天然磁石? Why should the ball on the lower ramp roll down against the attraction of the magnet, if it does not on the upper ramp?为什么要球在较低的斜坡滚下来的吸引力磁铁,如果没有在上匝道? How does the iron ball find out that it must change the direction of movement at the bottom end of the ramps?如何找到铁球,它必须改变方向的运动在底端的坡道?
These questions and the implied explanation can be found in many articles and apparently is the most natural approach to deflate Taisnierus' idea. If we do a careful analysis of the device in modern terms, we find out that things are not so simple as they seem.这些问题和隐含的解释中可以找到许多文章,显然是最自然的办法,压缩Taisnierus '的想法。如果我们仔细分析该装置在现代而言,我们发现,事情并不那么简单,他们似乎。 Look at the forces which act on the iron ball.看看部队采取行动的铁球。 Of course, the position of the magnet, the slope of the ramp and the location of the openings must be carefully adjusted.当然,位置的磁铁,坡度的坡道和位置的开口必须认真调整。 To our surprise, this device does not violate the law of energy conservation - but it does violate the second law of thermodynamics!我们的意外,这个装置并不违反法律的能量守恒-但它确实违反了热力学第二定律!
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检查了这一点,并解释其工作方式! m 米 mass of the iron ball 大量的铁球 f 1 第 1 attracting magnetic force at the lower end of the ramp 磁力吸引了在低端的坡道 f 2 第 2 attracting magnetic force at the upper end of the ramp 磁力吸引在高端的坡道 f H f H down force of the ball, |f H | f g f 克 f g = mg weight force of the ball, |f g | can drop through the opening in the upper ramp 可以通过减少在开幕式上匝道 我们应该牢记,威尔金斯是第一个科学家谁也向前迈出的一大步科学,因为他取代许多猜测实验。然而,这并不妨碍他作出非常witful思考(可能)众生的月球。 It should take some more years until an Isaac Newton stated Hypotheses non fingo .它应采取一些更多年,直到艾萨克牛顿指出假说非fingo 。 John Wilkins' scientific work also addressed educated common people - an aspect which shall not be underestimated if we regard the common scientific culture in Europe at his time, most scientists communicating in latin laguage.约翰威尔金斯的科学工作也给普通民众的教育-一个方面,不应低估,如果我们的共同方面的科学文化在欧洲的时间,大多数科学家在拉丁美洲沟通的语言。 Thus Wilkins can be named one of the fathers of modern science.因此,威尔金斯可以命名一个父亲的现代科学。 1922, a modern variant has been described by Prachar 2) . 1922年,一个现代化的变种已被描述的Prachar 2 ) 。 Here, an arrangement of magnets pulls a steel ball up.在这里,安排磁铁钢拉球了。 The ball is guided by a ramp or tube. Michal adds: &...where the problem of moving the ball back was not solved by the inventor.&球指导的坡道或管。 科瓦奇说: “ ...那里的问题,转移球后没有解决的发明者。 ” (p.139) (临139 )
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Prachar's solution with permanent magnets Prachar的解决方案与永磁体 in alternating arrangement 在交替安排 The existence of the modern SMOT shows, that bishop Wilkins' idea and the 1922 concept are attractive for todays inventors as well.存在的现代SMOT表明,主教威尔金斯'的想法和1922年有吸引力的概念为今天的发明者以及。
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William Gilbert (24 May 1544-30 Nov. 1603) was Elizabeth I's royal physician. Moreover, Gilbert was the first to systematically study phenomena caused by the earth' he was the one who proved that the compass needle always points to the magnetic north pole of the earth.威廉吉尔伯特( 5月24日03年11月)是伊丽莎白一世的王室医生。此外,吉尔伯特是第一个系统研究的现象所造成的地球磁场,他是一个谁证明,磁针总是指向磁北极的地球。 At Gilbert's time the reasearch of magnetic phenomena was thoroughly performed, as scholars expected many new ideas and findings.在吉尔伯特的时间reasearch磁现象被彻底执行,作为学者预期许多新的想法和调查结果。 But the theory of magnetic fields was not developed and the hope to invent the PMM by using magnets was fed by dreadful tales like those about the fate rock or magnet mountain which ruined every ship coming too close by pulling out all nails due to its terrible magnetic power.但是,理论的磁场并不是发达国家和希望发明产品市场管理使用磁铁是助长了可怕的故事一样的命运岩石或山区的磁铁毁今后每艘船舶太接近了退出所有钉子由于其可怕的磁场力量。 Gilbert's book De Magnete 3) (1600) was widely read and extremely influential.吉尔伯特的书德Magnete 3 ) ( 1600 )被广泛阅读和极具影响力。 Gilbert was no follower of pepetual motion concepts.吉尔伯特没有追随者pepetual运动的概念。 Actually, in chapter XXXV, he cites some names and explicitly denies the possibility of these devices.其实,章三十五,他列举一些名称,并明确否认的可能性,这些设备。 Here's a machine which embodies the fallacies of the magnetic PMM.这是一台机器,它体现的谬论磁产品市场管理。 Occasionally in cartoons or recreational physics we find drawings like this, which illustrates how a magnet can be used to propel a ship or car.偶尔在漫画或娱乐物理学我们找到这样的图纸,这说明磁铁可用于推进船舶或汽车。 I don't know when this idea originated nor if the concept ever was seriously suggested.我不知道什么时候这个想法源于也不如以往的概念是认真建议。
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H.-P. H.-P. Gramatke's version of the magnetic car Gramatke版的磁性汽车 The Jesuits耶稣会 Some Jesuits, amongst them some of the most outstanding scholars of the seventeenth century, Athanasius Kircher (2 May 1601-30 Oct.1680) and his pupil Caspar Schott (5 Feb. 1608-22 May 1666) studied the creation of perpetual motion on earth by man's hands.一些耶稣会士,其中包括一些最杰出的学者在十七世纪,亚他那修斯珂( 5月2日1601年至1630年Oct.1680 )和他的学生卡斯帕肖特( 2月5日一六○八年至年5月)研究建立对永动机地球人的手中。
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Athanasius Kircher explored the effects of the magnetic lodestone, as William Gilbert did before him. 亚他那修斯珂探讨了影响天然磁石的磁性,因为威廉吉尔伯特没有在他面前。 The universal scholar Kircher seemed to have an ambivalent opinion about perpetual motion devices, which did not prevent him from inventing several PM machines. One of his constructions is a wheel with radial iron points rotating in the field of four magnets.学者的普遍斯珂似乎有一种矛盾的看法永动机装置,但没有阻止他发明了永磁机。之一,他的建筑是一个车轮的径向旋转铁分领域中的四个磁铁。 Technically speaking, this was a further development of Pierre de Maricourt's idea.从技术上讲,这是一个进一步发展的皮埃尔德马里古的想法。 But the genius Kircher also did not succeed in inventing an operable PM device.但天才斯珂也没有成功地发明了一种可操作性下午装置。 In Schott's 1664 magnum opus Technica Curiosa we find not only descriptions of the sensational experiments performed by Otto von Guericke, but also numerous images and descriptions of the most recent perpetua mobilia of mid-seventeenth century.在肖特的1664年大作品Technica的Curiosa我们发现不仅说明了耸人听闻的实验所完成的奥托冯格瑞克,而且还大量的图片和说明最近佩尔佩mobilia中17世纪。 Not all of these devices were regarded as operable.并非所有的这些设备被视为可操作性。 Schott gives the example of a stunningly complex mechanism being invented by Johann Joachim Becher ( Technica Curiosa , p.732).肖特给出了例子,令人震惊复杂的机制正在发明的约翰约阿希姆彻( 铁三角Curiosa , p.732 ) 。 The elector of Mainz, Hans Philipp von Schönborn, even erected a tower to house the whole machine and set it into operation.选民因茨,汉斯冯Schönborn菲利普,甚至搭起了一个塔,房子整个机器和设置投入使用。 The gigantic effort was performed to keep a clockwork running!巨大的努力是为了保持发条运行!
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The machine's inventor closed his project after many unsuccessful years of work with the words: &Ten years I've pursued this foolishness, and have wasted much time, money and reputation, but I can announce without fame [sic] that the motus perpetuus is impossible.& 4) (cf. Michal , p.30).这台机器的发明者关闭了许多项目失败后,多年的工作的话: “ 10年我已经奉行这一愚蠢,而且浪费大量时间,金钱和声誉,但我可以宣布没有名利[原文]该是motus perpetuus不可能的。 “ 4 ) (参见科瓦奇 ,临30 ) 。 Besides the best known members of the Jesuit order were others who fell addict to the search of perpetual motion:除了最有名的成员是耶稣为了别人谁下跌成瘾的搜索永动机: Christoph Scheiner, who discovered sunspots (independently from Galilei and at the same time) invented a primitve &Gnomon Scheineriani&, for which he earned derisive laughter and malicious comments.克里斯托弗沙伊纳,谁发现了太阳黑子(独立于伽利略和在同一时间)发明了一种primitve “ Scheineriani教程” ,为此他赢得嘲笑笑声和恶意的评论。 Stanislaus Solski, who described around 1610 a complicated oscillating machine to lift water with ropes, levers and buckets.斯坦尼斯Solski ,谁在1610年描述一个复杂的振荡机,升降机水绳索,杠杆和水桶。 Christoph Grünberger(us), who was A. Kircher's predecessor mathematian of the Jesuit order at the Collegio Romano gave the theory of a PM based on spiral shapes which were calculated in a tedious way.克里斯托弗Grünberger (我们的) ,谁是字母a.斯珂的前任mathematian的耶稣秩序学院普罗迪了理论的基础上下午螺旋形状的计算在乏味的方式。 The already abovementioned Johannes Tainierus.已经上述约翰内斯Tainierus 。 Schotts Technica Curiosa contains so many references to Jesuits that one can easily get the impression that in the seventeenth century the whole Societas Jesu was infected by the perpetual virus. Schotts Technica的Curiosa含有如此多的提及耶稣,人们可以很容易得到的印象是,在17世纪整个学会耶稣是感染了永久的病毒。 Hydraulic Perpetua Mobilia液压佩尔佩Mobilia A very simple PMM consists of a tubular ring filled with two liquids of different density.一个非常简单的产品市场管理由环管状充满液体的两个不同的密度。 The difference of the levels is expected to provide an asymmetric force, thus causing the wheel to rotate.差异水平预计将提供一个不对称武力,从而使车轮转动。 Unfortunately, the two liquids are always in balance, whatever the densities of the liquids are.不幸的是,两个液体总是平衡的,无论密度的液体。 This principle can be traced back to the year 1150 to Bhaskara's Siddhanta Siromani . 5)这一原则可以追溯到1150年,以巴斯卡拉的瓦希丹塔Siromani 。 5 )
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A two-liquid perpetum mobile 两液体perpetum移动 Even simpler is the next device.即使简单的是下一个装置。 A wooden wheel is at one side only partially immersed in a water tank.木车轮是一方只有部分浸在水箱中。 The asymmetric buoyancy force was supposed to keep the wheel rotating.不对称浮力是要保持车轮转动。 The inventor of this machine did not take in account that pressure in liquids always acts from all sides and exerts forces perpendicularily on the surface of the submerged object.发明这种机器没有考虑到,在液体中的压力始终行为从四面八方和发挥部队perpendicularily表面上的水下物体。 This is a common misunderstanding about the way upward buoyant forces are generated.这是一种常见的误解蓬勃向上的方式产生的力量。 The wooden wheel proved to be a perpetuum stabile , which is not surprising at all.木轮证明是一个垂直稳定 ,这并不奇怪了。
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Buoyancy perpetuum mobile 浮力垂直移动 Denis Papin (22 Aug. 1647 - 23 Jan. 1712) was a French physicist who made the first reasonable designs for steam engines.丹尼斯帕潘( 日-1 712年1月2 3号)是法国物理学家谁制造了第一合理设计的蒸汽火车头。 He also invented the steam cooker (pressure cooker).他还发明了蒸汽炊具(压力锅) 。 Papin suggested the simplest hydraulic PM one can imagine.帕潘建议最简单的液压下午可以想见。 It had no moveable mechanical parts and its function should be based on the pressure excess in the large container that forces the liquid column in the thin tube upwards.它没有可移动的机械部件及其功能的基础应该是多余的压力,在大型容器,部队的液柱在细管向上。 A similar suggestion was made by Robert Boyle (25 Jan. 1627 - 30 Dec 1691), who thought that a very narrow bore tube would allow a liquid to rise continually by capillary effects.类似的建议是由罗伯特波义耳( 日-1 691年1 2月3 0日) ,谁想到一个非常狭窄的口径钢管将允许液体不断上升的毛细管作用。 Although both concepts frequently are illustrated by the same schematic image, their intended principle of operation is completely different.虽然这两个概念经常是说明了同样的原理形象,其用意原则运作是完全不同的。 Nevertheless, none of these ideas worked.然而,所有这些设想的工作。
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Violation of the hydrostatic equilibrum 违反流体静力学平衡 Papin should have known better. 帕潘应该知道更好。 Years earlier, the french philosopher, physicist and mathematician Blaise Pascal () invented a device to measure the hydrostatic pressure. 几年前,法国哲学家,物理学家和数学家布莱斯帕斯卡尔( 1623年至1662年)发明了一种装置来衡量的静水压力。 This device even today is named after its inventor Pascal's apparatus (?). 这个装置即使在今天的名字命名,它的发明者帕斯卡器具( ? ) 。 But long before both, Simon Stevin made first experiments of this type. 但是,双方很久以前, 西蒙斯蒂文首次试验了这种类型的。 Cf. Recknagel, Experimentalphysik p.68. 比照。 Recknagel , Experimentalphysik临68 。 Later engineers tried their luck with buoyancy PMMs based on other principles. In the apparatus shown here, the inventor understood that the liquids in the two tubes of different length were in hydrostatic equilibrum in the two tubes.后来工程师们试图与他们的运气PMMs浮力的基础上其他的原则。在这里显示装置的发明者了解,液体在两管的不同长度是在流体静力学平衡的两个管。 But he thought he could still exploit the unequal heights to maintain motion of something else.但是,他认为他仍然可以利用不平等的高度,以保持运动的其他东西。 Let's examine the intended operation of this machine! The U-tube contains two liquids of different density (say water and mercury), which are in static equilibrum.让我们审查打算运作的这台机器!的U型管包含两个不同的液体密度(比如水和汞) ,这是在静力平衡。 The balls are light enough to rise in both liquids.该球是轻足够的上升在液体。 A single ball rises in the left part of the tube, pops out and falls down.一个球上升的剩余部分管,持久性有机污染物和瀑布下降。 With this, it drives a wheel which can provide useful work.由于这一点,四轮驱动可以提供有益的工作。 Then the ball drops onto the top of the pile of balls in the right hand part of the tube.然后滴上球顶部的桩球在右手部分管。 The pile is heavy enough to force the lowest ball under the deepest point of the U-tube.桩十分繁忙,不足以迫使球的最低下的最深点的U型管。 Thus, the lowest ball will be free to rise in the left tube.因此,最低的球将是免费的上升在左管。 It's not easy to explain in simple terms why this cyclic process cannot work.这并不容易解释简单来说,为什么这个循环过程不能工作。
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An almost workable hydraulic- 几乎是可行的液压 mechanic perpetuum mobile 机械垂直移动 William Congreve (20 May 1772 - 16 May 1828), an English officer who introduced rockets onto the battlefield, made a drawing of a PMM working by capillary effects in sponges.威廉康格里夫( 号-1 828年五月1 6号) ,军官的英语介绍了火箭谁的战场上,提出了制定一个产品市场管理工作的毛细管效应的海绵。 The principle of operation is simple: the sponges on the left hand side fill with water and get heavier.的原则,操作简单:海绵左侧填补水和得到加重。 In this way a downward force arises which keeps the chain moving in counterclockwise direction. The sponges which rise at the right hand side are squeezed by the pressure of the heavy chain-plates (therefore they weigh less).这样的下降产生的力使链朝着逆时针的方向发展。其中的海绵市场上的右边是挤压的压力重链板(因此他们体重不足) 。 Congreve calculated the considerable power his machine could generate.康格里夫计算了相当大的权力他的机器可以产生。 But alas!但是,唉! Although this is a clever design, it does not work.虽然这是一个聪明的设计,它不工作。
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Congreves sponge perpetuum mobile Congreves海绵垂直移动 Based on ideas of Giovanni Battista della Porta (), the italian renaissance engineer Vittorio Zonca (1568? - 15 Nov 1602) invented a PM that used the effect of the siphon.基于思想的乔瓦尼巴蒂斯塔教堂门( 1535年至1615年) ,意大利文艺复兴时期的工程师维托里奥宗卡( 1568年-1 602年一十一月1 5日)下午发明了一种使用的效果虹吸式。 Siphons only work when the outlet opening is lower than the inlet.虹吸管只有工作时开幕的出口低于进口。 At Zonca's time this fact was not correctly known which made the construction seem to be a realistic option to obtain a perpetual energy source.在宗卡的时间这一事实是不能正确地知道其中的建设似乎是一种现实的选择,以获得永久的能源。 Look at the strange belly shape of the siphon!看肚子形状奇怪的虹吸! It is not caused by poor skills of the draftsman, but by the idea, that a larger cross-section at the outlet will compensate the lack of height.这不是穷人造成的技能,制图,但这一想法,认为较大的横截面的出口将弥补缺乏高度。 The whole idea seemed plausible, as the siphon effect was not explained by air pressure but by the aristotelian horror vacui . Ie nature &abhors a vacuum&, meaning &nature cannot produce a vacuum.&整个构思似乎合理的,因为虹吸效应并不说明空气压力,而是由亚里士多德 恐怖vacui 。伊江性质“厌恶真空” ,意思是“性质不能产生一个真空。 ”
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Syphon perpetuum mobile 战士垂直移动 Electric Perpetua Mobilia电气佩尔佩Mobilia Besides the famous radium clock many other electric PM devices were invented.除了著名的镭时钟许多其他电气设备时发明的。 One of the earliest examples is based on the electric charge generated by two Zamboni elements (a type of dry battery).最早的一个例子是基于电荷所产生的两个要素赞博尼(一种干电池) 。 As the mechanism needs only little power, it ran very long. Ord-Hume reports from a device that was set into motion around the 1840s and lasted for 150 years.由于机制只需要小功率,它跑很长时间。条例,休姆的报告从一个装置,是把周围的议案1840年,历时150年。
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Electrostatic perpetuum mobile 静电垂直移动 The galvanic batteries are 该电池电 concealed inside the columns 藏列 A different device based on the same principle. 另一种不同的设备基于同样的原则。 It was not intended to be a PM at all! 它并不打算成为一个时,在所有! This sensitve instrument was used in the laboratory to check electric charges. 这sensitve仪器被用来在实验室检查电费。 As there was already pre-charge applied to the electroscope, an additional little charge caused reaction. 由于已经有预充电适用于验电器,额外收取很少引起的反应。 Only the adjustment had to be set correctly beforehand to prevent the electroscope from oscillations. Cf. Recknagel, Experimentalphysik p.489. 只有调整,必须事先设定正确,以防止验电器由振荡。参阅。 Recknagel , Experimentalphysik p.489 。 Machine inventions which use electric motors mechanically coupled with generators and some electric trickery are abundant.机的发明使用电动马达机械再加上一些发电机和电动弄虚作假丰富。 As electric and mechanic power can be converted into each other, these machines worked as well as their mechanical equivalents, the recirculation mills.作为电力和机械力量可以转化成对方,这些机器的工作以及相应的机械,工厂的回流。 In mechanical mills there are friction losses which can't be avoided - in these electromacnetic machines we find resistance losses.在机械厂有摩擦损失无法避免的-在这些e lectromacnetic机器我们发现阻力损失。 So this also proved to be the wrong way to get a PMM running. But this knowledge is not so widely spread as one may expect, as is demonstrated by Don Martin's corner-ring generator .因此,这也被证明是错误的方式获得产品市场管理运行。但是这方面的知识并非如此广为传播作为一个可期待,这证明了唐马丁开出的角球环发生器。
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Electric motor & generator perpetuum mobile 电动机及发电机垂直移动 M&&electric motor 电动马达&&G G&&generator, mechanically driven by M 发电机,机械驱动用M&&LS 最小二乘&&charge and control electronics 收费和控制电子产品&&A 字母a&&accumulator 蓄电池
化学佩尔佩Mobilia The previous chapters have concentrated on concepts of physical perpetual motion devices.以前的章节都集中在物理概念的永动机装置。 This chapter gives a brief overview on alchemistic and chemical perpetua mobilia.本章概述了对炼金术和化学佩尔佩mobilia 。 A perpetual motion device needs not neccessarily a rotating wheel or an electric circuit.阿永动机设备的需求不一定是旋转方向盘或电路。 Occasionaly, we find legends and reports of objects which fulfil the typical property of perpetual motion machines: they generate energy out of nothing. Occasionaly ,我们发现传说和报告的物体履行典型的财产永动机机:它们产生能量无中生有。 The oldest reports are those of eternal lamps. Some alchemistic recipes and concepts also are close akin to perpetual motion.最早的报告是永恒的灯。一些炼金术的食谱和概念也已接近类似于永动机。 The alchemy is, according to today's knowledge, considerably older than the first known plans and ideas for perpetual motion machines.是的炼丹术,根据今天的知识,大大超过了第一个已知的计划和设想永动机机器。 Magnet Stones and Eternal Lamps永磁石块和永恒的灯 Pliny the Elder (23 or 24-79A.D.) described in his natural encyclopaedia Historia Naturalis the magnet stone and his effects.老普林尼( 23或24 79A.D 。 )描述在他的自然百科全书历史自然磁铁石和他的影响。 For us, a remark considering a temple is interesting.对于我们来说,一句话考虑寺庙很有意思。 There, a iron statue should be kept freely floating in a niche by the forces of magnet stones.因此,一个铁的雕像应该保持自由浮动在一个特殊的部队磁铁石头。 Although this is no perpetual motion machine, it was regarded to be physically impossible until recent times when the floating magnetic gyroscope was inventend.虽然这是没有永动机,它被认为是实际上不可能,直到最近的时候,浮磁陀螺仪是inventend 。 cf. the magnet section of this site.比照。 磁铁节本网站。 &Magnete lapide architectus Timochares Alexandriae Arsinoes templum concamarare incohaverat, ut in eo simulacrum e ferro pendere in aëre videretur. intercessit ipsius mors et Ptolemaei regis, qui id sorori suae iusserat fieri.& “ Magnete lapide architectus Timochares Alexandriae Arsinoes templum concamarare incohaverat , UT斯达康在13224拟像é铁合金pendere在艾利videretur 。 intercessit ipsius mors等Ptolemaei吉斯,归仁编号sorori爱iusserat扣押。 ” Lib.库。 XXXIV.148 Pliny Internet editon XXXIV.148 普利尼互联网版 &The architect Timochares had begun to use lodestone for constructing the vaulting in the Temple of Arsinoe at Alexandria, so that the iron statue contained in it might have the appearance of being
but the project was interrupted by his own death and that of King Ptolemy who had ordered the work to be done in honour of his sister.& “建筑师Timochares已经开始使用天然磁石建设中的跳马庙阿尔西诺伊在亚历山德里亚,使铁中所载的雕像它可能出现被暂停半空中;但该项目被打断了他自己的死亡和这国王托勒密谁下令工作要做有幸他的妹妹。 “ (transl. by Rackham) 1) ( transl.的拉克姆) 1 ) More interesting are Pliny's considerations on the 'adamas' (ie most probably diamond 2) which can amplify or diminuish the force of magnets.更有趣的是普利尼的思考' adamas ' (即最有可能的钻石2 )可以放大或diminuish武力的磁铁。 Unwillingly, he laid the foundation for some physical-alchemistic perpetual motion concepts.不情愿,他奠定了基础,对一些物理炼金术永动机的概念。 &adamas dissidet cum magnete in tantum, ut iuxta positus ferrum non patiatur abstrahi aut, si admotus magnes adprehenderit, rapiat atque auferat. adamas et venena vincit atque inrita facit et lymphationes abigit metusque vanos expellit a mente.& “ adamas dissidet暨magnete在tantum , UT斯达康iuxta positus铁非patiatur abstrahi引渡,市admotus马格内斯adprehenderit , rapiat atque auferat 。 adamas等venena vincit atque inrita facit等lymphationes abigit metusque vanos expellit一门。 ” Lib.库。 XXXVII.61 Pliny Internet edition XXXVII.61 普利尼网络版 &The 'adamas' has so strong an aversion to the magnet that when it is placed close to the iron it prevents the iron from being attracted away from itself. Or again, if the magnet is moved towards the iron and seizes it, the 'adamas' snatches the iron and takes it away.&他说: “ adamas '有如此强烈的反感磁铁,当把它放在靠近它妨碍铁的铁被吸引了远离自己。又或者,如果磁铁是走向铁和抓住它, ' adamas '片段的铁并带走。 “ (transl. by Rackham) 1) ( transl.的拉克姆) 1 ) Pliny busily collected knowledge and compiled it in his books, but not everything that was reported by him, proved to be correct.普利尼忙着收集汇编的知识和在他的书,但不是一切,他的报告,证明是正确的。 Some of his remarks are surprising, as they could have easily been proved or disproved by simple experiments.他的一些言论是令人感到意外,因为他们可以轻易地被证明或反驳通过简单的实验。 Those who are interested in details, should have a closer look into the internet edition of Pliny's natural encyclopaedia . 1) .这些谁感兴趣的细节,应该有一个更密切的调查网络版的普林尼的自然百科全书。 1 ) 。 Trithemius (1.2..1516), who is also important for the history of cryptology, described several eternal lamps. Trithemius ( 1.2..1516 ) ,谁同样重要的是,历史上的密码,介绍了永恒的灯。 The legend of the opening of Cicero's daughter Tullia's grave is known.据传说,开放的西塞罗的女儿Tullia的严重是众所周知的。 It is said that a lamp has been found which seemed to be burning since Tullia's burial.有人说,一盏灯已发现这似乎是自Tullia燃烧的葬礼。 When the tomb was openend, the lamp ceased to work and could not be lit again.当古墓被openend ,灯停止工作,不能再次点燃。 A good overview about ever-burning lamps is given by the internet web site& .一个很好的概括约以往任何时候都燃烧的灯是由互联网网站 。 John Wilkins dedicated a large chapter of his Mathematical Magick on eternal lamps and explanations how they might have worked.约翰威尔金斯专用大章,他的数学Magick对永恒的灯和解释它们如何工作。 Centuries after these pages have been written, they are still relevant for this topic.百年后,这些网页已经写,但它们仍然适用于这一议题。 F. Ozanam, a 19th century theologist, (not to be confused with the Récréationes mathematiques ' author), wrote eight pages about ever-burning lamps. Ozanam楼,一座19世纪的theologist , (不能混为一谈数学Récréationes作者) ,写8页的以往任何时候都燃烧的灯。 The major question which arises is, how much of these reports is legend and how much is in the range of the possible.主要问题产生的,有多少这些报告的传奇人物,又有多少是在一系列可能的。 The follow-up question should be: what allows the assumption that the found lamps were lit since their supposed start of use?后续问题应该是:什么可以假设,即发现灯被点亮,因为它们理应开始使用? Was there any opprtunity for fraud?没有任何回报的欺诈行为? A few theories might reasonably explain why these lamps could have worked for a long period of time.有几个理论可以合理解释为什么这些灯可以工作了很长一段时间。 The idea is that lamps of this type were mounted at a fixed location and made use of a natural reservoir of oil or gas.这种想法是灯这种类型的是安装在一个固定的位置,并利用自然水库的石油或天然气。 The fueling by a combustible medium plausibly explains the long-lasting operation. After being removed, these lamps of course could not be lit again.该燃料的燃烧中振振有辞解释了长久运作。拆除后,这些灯,当然不能再次点燃。 In contrast to a perpetual motion device, this type of invention is feasible and works almost eternally - for human time.与此相反的永动机装置,这种类型的发明是可行的,并且几乎永远工程-为人类的时间。 However, this is no generation of energy out of nothing.然而,这是任何一代人的能量无中生有。 The lack of evidence for these lamps imposes a problem, as (as}
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省大师怎么做?省大师app怎么赚钱?大赚师为你揭秘!
问:省大师是什么?答:省大师是一个购物不花钱,分享就赚钱的APP问:省大师具体怎么操作呢?答:具体操作分为两个部分:1、自己购物可以优惠50%—100%2、分享就可以赚钱问:如何通过省大师来免费购物?答:详细步骤:1、在淘宝选择好你要买的商品,复制商品的整个标题2、把标题粘贴到省大师APP领取商品优惠券,去淘宝购买这个商品3、购物完成后省大师APP会返还给你50%—100%的购物本金问:如何通过省大师来赚钱?答:推广省大师赚钱可以获得两大块收益1、推荐会员奖励,可以拿两级的各35%,和团队推荐奖励基金2、获得团队购物提成和团队购物提成基金只要别人购物你就赚钱,这是一份管道(被动)收入,管道建立好之后,后期就可以自动赚钱了&问:如何加入省大师呢?答:可以添加省大师运营商的微信:(注明:省大省,否则不通)&问:商家为什么要发布优惠券?答:商家为了冲销量打造爆款,提高在淘宝的搜索排名,所以商家发布优惠券活动。&问:商家的优惠券发布在哪里?答:所有的商家统一把优惠券发布在阿里旗下的阿里妈妈(淘宝客联盟)平台,推广者(淘宝客)直接在阿里妈妈平台优惠券商品推广。&问:商家的盈利在哪里?答:比如商家发布了2000个优惠券,当商家停止优惠券活动后,后边再去买这个商品的人就得需要按原价来购买,商家赚的是未来按原价购买这个商品人的钱。问:省大师平台的收入来自哪里?答:省大师平台的收入来自商家支付的推广佣金,商家设置好优惠券之后付推广佣金给推广者,不付佣金没人帮他推广。问:消费者可以在阿里妈妈平台直接领取优惠券吗?答:阿里妈妈平台不是直接给消费者开放的,是给推广者(淘宝客)开放的,消费者要想直接在阿里妈妈领取优惠券的话,流程比较繁琐,需要先注册淘宝客账号,获取自己的淘宝客链接,等等一系列的流程。切记一定要输入邀请码,然后加我微信:(备注:省大师,否则不通过)将会赠送给你一份【永远不缺精准流量】的顶级内幕资讯,价值巨大!每天仅限前10名!&问:省大师返还的购物本金来自哪里?答:省大师返还的购物本金来自于商家支付给省大师平台的推广佣金。&问:商家支付的推广佣金是多少?答:从5%—90%不等。问:省大师把佣金都返还给购物者了那省大师还赚钱吗?答:省大师返还的购物本金不是一次性返还的,是每天慢慢返还的,商家给省大师的佣金是每个月固定结算的,所以这里就有了一个时间差,这个时间差可以让省大师平台沉淀很多资金,这些沉淀的资金可以在资本市场获得更多的收益,这是一个良性循环。&问:为什么要做省大师呢?答:1、你平时在淘宝购物吗?&&&&&2、如果有一个可以给你优惠50%—100%的软件你会使用吗?&问:加入省大师如何推广呢?答:加入省大师运营商团队后,我们会手把手教你推广,我们有一套完整的推广流程,几乎是傻瓜式操作,每天按部就班就可以了。问:加入省大师需要多少钱呢?答:省大师的会员是99元,也就相当于你花99元就可以跟马云一起创业了。&问:如何加入省大师呢?答:可以添加省大师运营商的微信:(注明:省大省,否则不通)&问:省大师能做多久?答:只要淘宝不关门我们就可以一直做。问:省大师为什么要把推广返还给购物者?答:这是一个全新的商业模式,在当今的互联网时代有个庞大的用户之后,可以衍生出更多的生态模式,另外省大师是奔着上市去的,所以是大格局的平台。问:省大师适合那些人加入呢?答:想免费购物的、想创业的、想做分享经济的、想获得被动收入的、想兼职赚钱的、等等......问:省大师的模式合法吗?答:省大师采用的是二级分销,符合国家的法律,并且属于李总理提倡的分享经济&问:省大师未来的发展前景如何?答:每年阿里妈妈分出去的推广佣金有几百亿美金,2017淘宝双十一交易额达到1682.69亿元,这只是一天的交易额,所以未来的市场煤场庞大。更多好个人创业小项目请关注官网:外国人用两块磁铁制作出永动发电装置,真有那么神奇?-科技视频-搜狐视频
外国人用两块磁铁制作出永动发电装置,真有那么神奇?
推荐出品人手机赚钱软件哪个好?2017手机赚钱软件排行榜_手机赚钱app下载
手机赚钱软件可以帮助用户更加轻松的赚钱,获取更多的收益,让用户足不出户就轻松赚钱,获取收益。手机赚钱软件操作简单,用户只需要完成应用规定的任务,就可以获取一定的收益,赚取更多的money。在众多的赚钱app中,用户只需要动动手指,就可以领取收益。下面IT猫扑给大家带来手机赚钱软件大全,包括、、、、等不同类型的赚钱软件下载。
手机赚钱app推荐
百米红包是一款手机版赚钱app,我们最大得到特点就是无论您是什么工作,只要您有闲暇时间就可以轻松的赚钱,有优惠券,现金红包,无论你在等
南瓜赚是一款手机在线赚钱app,通过南瓜赚app,你可以赚一些零花钱,只需动动手指阅读文章,就有钱得,体现灵活,让你赚钱更容易。快来it猫
天天捡钱app是一款手机赚钱应用软件,在该应用中用户只需要每天完成任务,就可以轻松赚取收益。并且还可以邀请好友一起玩,对半分享好友的洪
悦赚宝app是一款通过转发分享文章到朋友圈赚钱的手机应用软件,在该应用中用户只需要动动手指就可以轻松赚钱,在线获取收益。有需要的用户欢
米赚众测app是一款通过使用流量来赚钱的软件,只用你动动手指,做任务,就有大米可以赚,再也不用担心流量用不完了!!有兴趣的朋友快来IT猫
免费刷q币软件破解版是一款无需积分手机刷q币软件,用户可以在这里通过各种方式免费获取Q币,不仅可以轻松赚钱,以后再也不用花钱买Q币了哦
飞猫网盘破解版是一款优质的网盘文件下载的返利赚钱软件,在这里我们为您提供云技术,让你储存文件,只要有下载就能立刻返利赚钱,非常方便
微创打码app是一款手机打码赚钱软件,应用中用户有多种赚钱方式,可以帮助用户快速赚钱。新用户使用该应用即可领取随机现金红包,邀请好友也
任务多app是国内首款专业的手机打码赚钱平台,注册就送红包,各种打码活动让你轻松赚钱,工资日结不拖欠,纯绿色任务不需要垫付,完全免费,
人人大家庭app是一款可以通过零碎时间利用手机赚钱的应用。用户在该应用可通过转发文章、阅读资讯或者玩游戏等方式来赚取零花钱,只需花费零
爱淘金app是一款可以自动对淘宝收藏店铺进行签到领取淘金币的手机软件,让你轻轻松松拥有海量淘金币,使用十分简单.有兴趣的朋友就来IT猫扑下
云币网手机客户端是一款全新打造的数字资产交易平台的手机赚钱软件,为你提供了丰富的赚钱任务,让你随时都能在这里安心理财,轻轻松松就能
八戒日付网手机客户端是一款安全可靠的手机打码赚钱平台,在这里你可以通过简单地打码就可以获得相应的报酬,轻松简单,喜欢的朋友快来IT猫
聊骚app是一款聊天赚钱的手机应用软件,应用中用户可以在线找各种人气靓女帅男聊天,还可以发布自己的信息提供聊天赚钱服务。有需要的用户赶
惠锁屏app是一款手机赚钱神器,注册就送现金奖励,邀请好友加入再送,邀请的越多,送的越多。更有众多特色内容等你来体验,娱乐,理财,学习
旺宝贝app是一款手机刷单赚钱软件,该应用中提供了多种多单任务,用户可利用闲暇时间选择自己喜欢的任务完成刷单,就可以获取相应佣金,非常
八戒打码手机版是由八戒日付网推出的一款手机打码赚钱软件,体验广告、游戏试玩、兼职打码等各种任务体验,完成指定任务即可赚取收益,动动
挖贝app是一款通过阅读赚钱的手机软件,分享阅读每日可领取超大红包,让你有所学有所得,轻松赚钱,丰富大脑,有兴趣的用户欢迎来IT猫扑下载
聚能赚手机版是一款专业靠谱的手机理财赚钱软件,拥有最新的理财资讯,还可以在线做任务获取现金佣金奖励,喜欢的朋友快来IT猫扑下载吧!
人气宝盒app是一款专为买手打造的做任务赚钱的应用软件,在该应用中用户只需要完成应用的任务,就可以获取相应的酬金。应用中买手用户可以绑
么么农场app是一款类似皮皮果游戏的农场赚钱游戏,轻松简单的玩法让你随时随地进行赚钱,十分的有趣哦.喜欢的朋友就来IT猫扑下载吧!应用简介
小赚app是一款手机赚钱软件,只需关注公众号就可以赚钱,轻松完成任务,赚钱无需繁琐。并贴发展开通会员佣金更多哦。赶紧来IT猫扑下载吧~软
来福app是一款手机刷单赚钱应用,是一款类似小旺财的app,但是比小旺财的佣金要高一些,平台类提供了大量的刷单任务,用户可选择喜欢的进行
品博app是手机网赚第一平台,专业刷单平台,有时间想要赚钱的用户可以下载品博平台app,兼职或全职都可以,没有任何限制,工作日结,操作简
指到钱来app是一款阅读转发文章的赚钱软件,只需看新闻一键转发就能轻松获得丰厚奖励,阅读你转发的内容的人越多收入越高,这是一款非常容易
小差事app是一款在线兼职软件,主要兼职内容是各种淘宝,天猫等一些网购商城刷单任务的兼职应用。用户可以实时刷单,多种商城任务任你挑。还
龙猫试玩app是一款手机做任务赚钱软件,包含转发文章、玩游戏、做调查等多种方式来赚取收益,可直接抵现消费也可直接提现到个人账户,动动手
小萌差事app是一款参与网络投票来赚钱的手机软件,让朋友通过轻轻松松的操作便可以赚取众多的零花钱,其简单的操作和丰厚的任务奖励,已经火
淘金客app是一款手机刷单赚钱的应用,这里为广大用户提供京东,淘宝,等一些知名网购商城的刷单任务。用户可以任意接单,做完就有收益,丰富
滴滴阅读app是一款手机阅读文章赚钱软件,使用与学生和白领,通过该平台领取任务,看广告读文章,利用碎片化的时间还能玩手机赚钱,是不是很
众人帮赚钱软件是IT猫扑网今天给各位用户分享的一款手机赚钱app,利用闲暇时间进行刷单,不需要花费太多时间,超多佣金任务,每天轻松赚上上百元
番薯网是一款非常好用的手机赚钱软件,用户通过微信分享文章产生浏览量就会有收益哦!收益无上限哦!只需动动手指分享文章,你的朋友圈就在
秒哥app是分秒速递配送员版手机软件,使用该应用可以帮助配送员便捷查看订单信息,在线进行快速抢单操作。有需要的用户赶紧来IT猫扑下载使用
91淘金破解版无限金豆是一款手机赚钱应用软件,在该应用中用户可以通过多种途径进行赚钱,应用中用户可以通过安装游戏获取福利、通过登录应
刷单王app是一款刷单挣钱的应用,用户能够随时接单刷单,增加淘宝卖家的人气,信誉,销售和流量。从而得到回报,应用里任务海量,想刷就刷,
花源app专为用户赚钱打造的手机软件,快速赚钱,便捷操作,致富无需等待,多种奖励等你来领。需要的用户赶紧来IT猫扑下载使用吧。软件介绍:
赢互帮是一款手机端赚钱app,我们针对不同的用户都会给出相应的赚钱平台,无论您是在等公交还是挤地铁,是学生党还是宝妈,赢互帮始终都是您
晋视惠app是由山西电视台打造的一款通过看广告赚钱的手机软件,为朋友们提供海量的红包,通过收看广告,红包轻松到账,有兴趣的朋友就来IT猫
乐豆玩手机版是2016年最火爆的一款手机试玩游戏的赚钱软件,让广大朋友享受一个奖励最为丰富的手机赚钱平台,这里海量任务不断刷新,让你畅
金桔庄园理财是一款类似农场模拟的手机赚钱的游戏,是类似皮皮果的游戏,在这里你种下的果实都能为你赚钱哦,还可以到别人的农场进行偷金币,十
小猎豹app是一款手机做任务赚钱软件,应用中用户只需要刷单就可以轻松赚,根本停不下来,操作简单,使用便捷。有需要的用户赶紧来IT猫扑下载
零钱猫app是一款轻松简单的做任务赚钱的手机软件,在这里拥有各种不同的简单任务,轻松完成便有丰厚的现金奖励,日赚几十块不是问题.有兴趣的朋
24趣吧app是一款功能丰富的手机做任务赚钱软件,用户可以在24趣吧客户端玩游戏赚钱、打码赚钱,还能做任务赚钱、竞拍赚钱,各种精彩荟萃,各
成就咖app是一款掌上任务赚钱的应用,用户只需要手机一部就可以随时随地赚钱,用户也可以利用闲暇的时间来赚钱。只需要动动手机,玩玩手机就
趣美文app是一款拥有超多美文阅读以及可以转发赚钱的手机软件,为你提供最简单方便的赚钱方法,海量文章一键转发,轻松赚钱佣金.有兴趣的朋友就
进财宝app是一款刷单赚钱神器,该平台提供了大量的任务,用户可利用闲暇时间选择性的进行做任务赚钱佣金,刷单流程简单,只需通过手机或者电
豆赚app是豆赚网推出的手机客户端,是一个手机赚钱分享平台。每天都会更新大量的手赚资讯、手赚软件评测的那个,为你选择更好的赚钱项目,利
一毛共享app是一款既可以赚钱又可以做推广的软件,一毛共享app上有许多广告资源,当你在浏览广告的时候就会随机获得红包,简直就是一个福利
投稿客app是一款完成投稿或者打字就可以赚钱的手机软件,只要你的文章质量高,回报非常的丰厚,而且无需审核,赚钱十分容易。喜欢的朋友就来
如客矿工app是一款通过挖矿赚钱的手机软件,用户首先注册成功之后可以签到自动挖矿,每日产出不等,等级越高收益越高,喜欢的用户欢迎来IT猫
掌上豆苗app是豆苗网官方推出的一款手机做任务赚钱软件,只要你有一部手机,无论你在哪里,都可以在掌上豆苗注册来刷单赚钱,通过手机淘宝接
移动归集宝app是一款移动倾力打造的赚话费、流量的手机客户端,让移动用户们尽享最优惠的活动,倾力给予移动客户最大的返利活动。喜欢的朋友
红包雨app是一款有趣的手机赚钱软件,在您闲的无聊时,不妨打开这款软件,一边娱乐,一遍赚一些零花钱,特别适合学生族,用上一周LOL皮肤就
k任务手机版是一款做调查问卷赚钱的手机软件,在这里用户只需要在线进行做调查问卷就可以赚取相应的K币,K币可以兑换成现金,还可以快速进行
超级赚app是一款全新的手机做任务赚钱的软件,拥有超多简单快捷的任务,做完即可兑现领奖,十分强大。喜欢的朋友就来IT猫扑下载吧!应用简
赏文赚app是一款全新的转发阅读赚钱的手机软件,具有任务多收益高等等特色,轻轻松松阅读转发,快快乐乐赚钱.喜欢的朋友就来IT猫扑下载吧!应
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大量永动机技术
大量永动机技术
Bhaskara's Wheel 巴斯卡拉的车轮
Arabian Perpetuum Mobile 阿拉伯垂直移动
Typical asymmetric Wheel&&典型的非对称轮
Leupold's Rolling Ball Maschine&&Leupold的滚球机器
Ferguson's Anti Perpetuum Mobile& &弗格森的反垂直移动
Pierre de Maricourt& &皮埃尔德马里古
In ancient Greece we see no evidence of interest in perpetual motion.在古希腊,我们看到没有任何证据的兴趣永动机。 Greek knowledge of mechanisms was well developed, as evidenced by the Antykythera mechanism and by Heron's automata.希腊知识的机制已经十分发达,就证明了这Antykythera机制和苍鹭的自动机。 Natural sources of power like water wheels and the labor of slaves, were sufficient for the needs of Greek society. Mechanical ingenuity was channeled toward construction of mechanical toys and temple automata.天然来源的权力像水车轮和劳动的奴隶,有足够的需求希腊社会。力学的聪明才智是对建设输送机械玩具和寺庙机。 These often had the appearance of being self-moving, but were powered by hidden power sources such as falling water or sand.这些经常出现的自我运动,而是采用了隐藏的权力来源,如属于水或沙子。 Roman authors did not mention any attempt to construct a perpetual machine.罗马作者并没有提及任何企图建造一个永久的机器。 However, only a few texts about technology from 2000 years ago have survived.然而,只有少数几个有关技术法规从2000年前已经存活。
The idea of perpetual motion originated in the Orient.的想法永动机起源于东方。 The first description of a perpetual motion machine was found to be made by the Indian mathematician and astronomer Brahmagupta in 624.第一次描述永动机被发现了由印度数学家和天文学家婆罗摩笈多的624 。 In his Brahmasphutasiddhanta , he describes a perpetual motion device: &Make a wheel of light timber, with uniformly hollow spokes at equal intervals. Fill each spoke up to half with mercury and seal its opening situated in the rim. Set up the wheel so that its axle rests horizontally on two [upright] supports. Then the mercury runs upwards [in some] hollow spaces and downwards [in some others, as a result of which] the wheel rotates automatically forever.&在他的Brahmasphutasiddhanta ,他描述了一个永动机装置: “让一个车轮轻的木材,并均匀地在空心辐条平等的间隔。填写每个以高达50汞和印章开幕坐落在篮筐。设置让车轮它的轮轴在于横向两个[正派]支持。然后向上运行汞[一些]空地和向下[在另外一些,其结果是]车轮转动自动永远。 “ (transl. SR Sarma). 1) ( transl.简萨尔马) 。 1 )
The Sisyadhivrddhida Tantra by the Indian astronomer Lalla, written in 748, is the next treatise, where a comparable perpetual motion machine is described. 谭崔的Sisyadhivrddhida由印度天文学家拉拉,写748 ,是下一代的论文,在可比的永动机是形容。 Lalla also refers to a wheel with hollow spokes partly filled with mercury. 2)拉拉还提到一个车轮辐条的空心部分填充汞。 2 )
Around 1150, the Indian mathematician and astronomer Bhaskara described in his Siddhanta Siromani a wheel with containers of mercury around its circumference.大约1150 ,印度天文学家和数学家的巴斯卡拉中描述他的瓦希丹塔Siromani一个车轮与汞的容器周围围。 He says, &This machine rotates with great power because the mercury at one side of the axle is closer that at the other.& ( Klemm , S.7) 3) .他说, “这台机器转动的大国,因为汞在一方轴接近,在其他。 ” ( Klemm ,补7 ) 3 ) 。 Apparently he thought this would cause continual unbalance to sustain rotation.显然,他认为这将造成持续的不平衡,以维持旋转。 Supposedly he didn’t build and test the device, and many other authors did not make this final step as well.据称他没有建立和测试设备,以及其他许多作者并没有使这个最后一步的。
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Brahmagupta's Perpetuum 婆罗摩笈多的垂直
Mobile Principle 移动原理
Bhaskara's Perpetuum 巴斯卡拉的垂直
Mobile Principle 移动原理
Perpetuum Mobile 垂直移动
Principle from a 12th cty 原则上从第12 cty
Arabian manuscript 阿拉伯手稿
Since the 12th century, the principle of this machine was frequently incorporated into other perpetual motion proposals, and became part of the history of technology.自12世纪的原则,这台机器经常并入其他永动机的建议,并成为历史的一部分技术。 Even today inventors propose variants of this &overbalanced wheel&, often in complicated designs containing wheels with eccentric levers and masses attached to them.即使在今天发明者提出的变种这个“ overbalanced轮” ,往往是在复杂的设计载车轮偏心杠杆和群众重视他们。
We have reached the idea of the imitation of the PM naturae.我们已经达到了思想的模仿自然的PM 。 A wheel as a rotating device has similarity to cyclic events in nature, like years.一个车轮的旋转装置相似的循环事件的性质,如年。 Thus the wheel mechanism represents an esoteric and religious aspect that can be characterized by buzzwords like return, year's cycle, re-incarnation . Indian temples frequently display wheel symbols.因此,车轮机制是一个深奥和宗教方面的特点流行语想回报,一年的周期,再化身 。印度寺庙经常显示车轮的符号。 It seems as if the aspect of creating a machine that generates useful work was not the predominant aspect of the indian mathematicians, but to simulate an eternal cycle.好像方面创造一个机器,产生有益的工作,不是主要的方面,印度的数学家,但模拟一个永恒的循环。 The machine is to be regarded as a model for philosophical aspects, not for engineering tasks.该机器被视为是一种模式的哲学问题,而不是工程任务。
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A wheel symbol on the Indian Sanchi stupa. 一个车轮的象征印度桑奇佛塔。 From 自
Strzygowski Asiens bildende Kunst , 1930, fig. Strzygowski Asiens bildende艺术 , 1930年,无花果。 272, p.285 272 , p.285
Perpetual motion machines based on wheels with attached eccentric masses, shifting masses or containers filled with liquid are called indian , persian or arabian perpetual motion machines.永动机的基础上的机器附有车轮偏心群众,转移群众或容器装满液体被称为印度,波斯或阿拉伯永动机机器。
The middle ages' architect and master-builder Villard de Honnecourt (around 1235) seemed puzzled by the unsuccessful attempts of other perpetual motion machine inventors.在中世纪的建筑师和总建筑维拉德德Honnecourt (约1235 )似乎感到不解的尝试失败的其他永动机发明者。 To close the discussion and end the ignorance of others, he drew a machine both simple as ingenious, whose operating principle is based on an odd number of moveable heavy hammers mounted to the rim of a wheel:要关闭的讨论,并结束对他人的无知,他提请一台机器既简单,巧妙,其工作原理是基于一个奇数动产沉重的铁锤安装到边的一个车轮:
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Villard de Honnecourt's famous unbalanced wheel. 维拉德德Honnecourt著名的不平衡的车轮。 The original comment reads &Maint ior se sunt maistre dispute de faire torner une ruee par li seul. Ves ent si con en puet faire par mailes non pers ou par vif argent& 原来的评论写着“维护采收率本身必须遵守梅斯特尔争端的自由放任torner新英格兰大学ruee杆立涩。新村入口州市途中puet控制杆mailes放任非属欧银杆因子”
Villard’s reasoning isn’t entirely clear, but apparently he assumed that at the wheel would always have four hammers on one side of the axle, and three on the other side, keeping it in continual unbalance.维拉德的推理并不完全清楚,但显然他认为在方向盘总是有四个锤一方的轴,三的另一边,保持它在不断的不平衡。 Villard did not realize that the whole system would reach static equilibrium with three masses at either side and one in the middle hanging straight down.维拉德没有认识到整个系统将达到静力平衡的三个群众一方和一个中直吊下来。 Even some of today's perpetual motion inventors fall into the same trap.即使是一些今天的永动机发明者落入同样的陷阱。 This is what I call persistence of limited vision: eight hundred years have passed, and these lessons have not been learned!这就是我坚持要求有限的远见:八百年过去了,这些经验教训没有得到教训!
Renaissance Ideas文艺复兴时期的思想
Francisco di Georgio弗朗西斯科教堂Georgio
During the Renaissance interest in perpetual motion machines was widespread. For example, some drawings of perpetual motion machines by the architect and master-builder Francisco di Georgio have survived.在文艺复兴时期的兴趣永动机机器很普遍。例如,有些图纸永动机机器的主建筑师和建筑弗朗西斯科教堂Georgio已经存活。 A very fine example is this water-driven mill with an additional pump engine.一个非常很好的例子是水驱动轧机额外泵引擎。 (Ms. Ashburnham 361 fol. 36r, cf. Galluzi p. 136) (女士Ashburnham 361奥德耶克。 36r ,比照。 Galluzi第136页)
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Let's examine the details of this mechanism: This machine uses closed water circulation.让我们审查的细节,这一机制:此机采用封闭循环水。 Such machines are called recirculation mills or dry water mills .这种机器被称为再循环工厂或干水车 。 Since the water does not come from external sources, it was called aqua morta ie &dead water&.由于水不是来自外部来源,它被称为水morta即“死水” 。 In this example, falling water turns a water-wheel which drives the corn mill through a gear mechanism. To raise the water up again, a crankshaft and two levers drive a two-cylinder piston pump which lifts the water to the feeding canal of the water wheel.在这个例子中,属于水满水四轮驱动的玉米通过轧机齿轮机制。为了提高水了,曲轴和两个杠杆推动两缸柱塞泵的升降机水喂养管水车。
Di Georgio gave more than one example of these machines but we have to be careful.邸Georgio了一个以上的例子,这些机器,但我们必须要小心。 Some of the machines are impractical, but they may work.有些机器是不切实际的,但他们可能工作。 And of course, machine drawings like these also were made to impress the reader and to demonstrate the combination of many construction elements in a single device.当然,机器图纸喜欢这些还进行了读者留下深刻的印象,并表现出相结合的许多建筑元素在一个单一设备。
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In 1618 the English physicist and mystic Robert Fludd (1574 - 8 Sep. 1637) described a recirculation mill, which raised the water with a chain pump powered by a water wheel, driven by the same water!在1618年英国物理学家和神秘的罗伯特Fludd ( 年9月8日)介绍了再循环工厂,从而提高水的链泵采用水车带动下,同样的水! However, Fludd added his disclaimer, stating that this was the invention of a &certain italian& which was &being the unworkable repetition of an aged idea&.但是,他补充说Fludd声明,指出这是发明了“某些意大利” ,这是“是行不通的重复的老人的想法。 ” For details, cf.如需详细资料,比照。 the physics section.物理部分。
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In the middle of the eighteenth century the first systematic research on water powered machines was made in order to improve these devices.中十八世纪的第一个系统研究水动力的机器是为了提高这些装置。 250 years after Leonardo, machines driven by aqua morta were relegated to the scrapyard of technology. 250年后,莱昂纳多,机器驱动的水morta被降级到废料场的技术。 It wasn’t until the mid 1950s, until these were resurrected by Viktor Schauberger .但直到20世纪50年代中期之前,这些都是复活的维克托Schauberger 。 Under the name of &trout turbines& or &vortex turbines& they are still discussed today by Schauberger's followers.根据这项名为“鳟鱼涡轮机”或“涡轮涡”他们仍然今天讨论的Schauberger的追随者。 I've never heard of a working example…我从来没有听说过一个工作的例子...
Leonardo daVinci达芬奇
Apparently, di Georgio's machines were known to Leonardo da Vinci 4) who had a life-long interest in machines of all kinds, including perpetual motion machines.显然,二Georgio的机器据了解,达芬奇4 )谁了终身的兴趣,机器的各种,包括永动机机器。 Some of his drawings of recirculation mills with archimedian screws have survived.他的一些绘画的再循环厂与archimedian螺丝钉都幸免于难。 He described a complex mechanism using a wheel with mercury-filled containers. The Deutsches Museum in Munich has a reconstructed model on display.他描述一个复杂的机制,用车轮与汞填充的容器。在德意志博物馆在慕尼黑有一个重建的模型展出。 Leonardo was an excellent observer and knew the theory of machines quite well.莱昂纳多是一个极好的观察和认识理论的机器相当不错的。 Although the principle of conservation of energy was unknown at his time, Leonardo had a clear concept which came very close to it: &Falling water lifts the same amount of water, if we take the force of the impact into account [...], but from the power of the machine we have to subtract the friction losses in the bearings.&虽然原则的节约能源是未知的时间,莱昂纳多有一个明确的概念,它非常接近于它: “水降升降机相同数量的水,如果我们采取的力量影响到[...] ,而是来自权力的机器,我们必须减去摩擦损失的轴承。 “ ( Michal p.17). ( 科瓦奇第17页) 。 Sketches by Leonardo's hand of pure mechanical perpetua mobilia, which use rolling balls, are also known.素描的达芬奇的手的纯机械佩尔佩mobilia ,使用滚动球,也是众所周知的。
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Leonardo's rolling ball machines (cf. Wallace, Leonardo da Vinci , p.168) 达芬奇的滚球机器(参见华莱士,达芬奇 ,临168 )
Although Leonardo had a continuing interest in perpetual motion machines, he held a very skeptical opinion about the possibility of their practical implementation.虽然列奥纳多了继续关心永动机的机器,他举行了一次非常怀疑意见的可能性,其实际执行情况。 In one of Leonardo's sketchbooks we find a drawing illustrating Leonardo’s proof of the impossibility of an overbalanced wheel PM.在一个达芬奇的sketchbooks我们找到一个绘图说明达芬奇的证明是不可能的一个下午overbalanced轮。
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Leonardo's proof of the impossibility 达芬奇的证明不可能
of a mechanical PM with levers 机械与杠杆点
(cf. Cianchi p.83 / Cod. Madrid I, fol.145r.) (参见Cianchi临83 /鳕鱼。马德里我fol.145r 。 )
This drawing shows excellent insight into forces, torques and levers.这表明优秀的绘图深入部队,扭矩和杠杆。 The analysis of forces can be regarded as almost modern.分析部队可视为近现代。 Leonardo closed his considerations with the words: &O you researchers of perpetual motion, how many harebrained ideas have you created in this search. You may as well join the alchemists.&列奥纳多收他考虑的话: “啊,你研究的永动机,有多少轻率想法中创建的搜索结果。您可能也加入炼金。 ” ( Michal , p.17) ( 科瓦奇 ,第17页)
A Machine not being built机器没有内置
Even today, Agostino Ramelli (1531[?]-1608[?]) is regarded as an important engineer.即使在今天,阿戈斯蒂诺拉梅利( 1531 [ ? ] -1608 [ ? ] )被看作是一个重要的工程师。 His great opus Le diverse et artificiose machine is a rich treasure for historians of technology. There we find many modern mechanisms which are attributed to later times. Eg Ramelli invented ventilators and a pump, which today is named after its &inventor& Gaede's capsule pump .他的伟大作品等多种乐artificiose机是一个丰富的宝藏历史学家的技术。我们发现有许多现代的机制,这是由于后来倍。阿米巴拉梅利发明的通风和一个泵,它今天的名字命名,它的“发明” 盖德囊泵 。 The end of the renaissance and the baroque period were the heyday of perpetual motion proposals.结束的复兴和巴洛克时期的鼎盛时期永动机的建议。 But Ramelli was too much a practical engineer to fall victim to the idea.但是拉梅利太多实际的工程师牺牲品的想法。 We find no mention of it in his works.我们认为,没有提到在他的作品。 Or to be more precise, almost no mention of it.或更准确地说, 几乎没有提到它。 In chapter 43 he describes a wheel for raising water, which contains a mechanism to improve the power of the device. 43章中,他描述了一个车轮,提高水,其中包含一个机制,以改善电源的装置。 This mechanism is the classic overbalanced wheel.这一机制是典型的overbalanced车轮。 After a short description of the machine, Ramelli adds this disclaimer: &You should know that the interior of this wheel was designed to please a gentleman who requested me to do it because he thought that since the current of the river was too slow it should be aided by a wheel. Thus anyone can make use of it if he judges it suitable.&经过简短说明机器,拉梅利本声明说: “你应该知道,这种内部轮的目的是要请一个绅士谁要求我这样做,因为他认为,因为目前的河流过于缓慢,它应被资助的一个车轮。因此,任何人都可以利用它,如果他有合适的法官。 “
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A machine for levering water with 阿机利弗林水
a perpetual energy amplifier 永久能源放大器
永动机的机器不需要纯粹机械。 Between the middle ages and the present time many devices have been proposed which make use of magnetic, hydraulic, electrical or other forces.之间的中间年龄和目前许多设备已提出了利用磁场,液压,电气或其他力量。 And of course, often several principles have been combined in attempts to construct a successful perpetual motion machine.当然,常常几个原则,已被合并,企图建构一个成功的永动机。
Magnetic Perpetua Mobilia磁佩尔佩Mobilia
The first known magnetic PM proposal dates back to 1269.第一个已知的磁点建议可以追溯到1269年。 Pierre de Maricourt (also named Petrus Peregrinus) described a rotating device which uses the attraction force of several magnets.皮埃尔德马里古(也称为翠官)描述一个旋转装置,使用武力的吸引力的几个磁铁。
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Pierre de Maricourt's magnetic concept 皮埃尔德马里古磁场的概念
As magnetic effects were poorly understood at this time, this idea seemed plausible.由于磁场影响了解甚少在这个时候,这个想法似乎有道理。 Maricourt explained that he wasn’t proposing a machine to produce useful work, but rather a model to help understand how the planets move in their orbits.马里古解释说,他没有提出一个机器产生有益的工作,而是一个模型,以帮助了解如何移动行星在其轨道。 Here, the PMM is to be interpreted as a pure model or analogy of a natural phenomena.在这里,产品市场管理是被解释为一个纯粹的模型或模拟的自然现象。 Pierre de Maricourt thought that the magnetic lodestone was the lapis for which the alchemists searched.皮埃尔德马里古认为,天然磁石的磁性是青金石该炼金搜查。
As often happens in the history of science, in the process of doing one thing, even doing something misguided, one discovers other things which are useful or important.正如经常发生在科学史的过程中,做一件事,甚至做一些误导,一发现其他的东西是有用的或重要的。 Pierre’s goal of explaining planetary motion did not prevent him from discovering that little iron wires put onto a magnetic ball arranged themselves in lines comparable to the imaginary longitude lines of the celestial sphere.皮埃尔的目标是解释行星运动并没有阻止他发现,小铁丝放到磁球安排自己的线路比较虚经度线的天体。 Pierre also observed that magnetic lodestones which were put on little swimming wooden pieces always aligned in north-south direction.皮埃尔还指出,磁lodestones是放在木制的小件游泳始终排列在南北方向。 Pierre de Maricourt coined the expressions of the magnetic &north& and &south poles& and he was the first who wrote that opposite poles attract each other and like poles repel.皮埃尔德马里古创造了表达的磁性“北”和“南部极点” ,他是第一个谁写道,对面的电线杆吸引对方像极击退。
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Frontispiece of the Frontispiece的
Mathematical Magick 数学Magick
Bishop John Wilkins () who was a co-founder of the Royal Society, described in his book Mathematical Magick or the wonders that may be performed by mechanical geometry a simple magnetic PM, which was suggested by Johannes Taisnierus. 主教约翰威尔金斯 ( 1614年至1672年)谁是创始人之一的英国皇家学会,描述在他的书中Magick或数学的奇迹,可能是由机械完成的几何形状简单的磁下午,该建议是由约翰内斯Taisnierus 。 At the upper end of a ramp a magnetic lodestone 1) is mounted.在高端坡道磁场天然磁石1 )安装。 The r one which allows an iron ball to enter the upper ramp at the bottom and another hole at the top through which the ball can drop to a lower ramp which guides it back to the bottom of the upper ramp.坡道有两个开口,一个让铁球进入坡道上的底部和另一个洞上方通过该球会降到较低的坡道引导回底部的坡道上。
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Wilkins also provided an explanation, why this mechanism cannot work.威尔金斯还提供了一个解释,为什么这个机制不能工作。 Why should the ball drop through the upper opening instead of eventually flipping to the lodestone?为什么要辍学球上通过开放而不是最终翻转的天然磁石? Why should the ball on the lower ramp roll down against the attraction of the magnet, if it does not on the upper ramp?为什么要球在较低的斜坡滚下来的吸引力磁铁,如果没有在上匝道? How does the iron ball find out that it must change the direction of movement at the bottom end of the ramps?如何找到铁球,它必须改变方向的运动在底端的坡道?
These questions and the implied explanation can be found in many articles and apparently is the most natural approach to deflate Taisnierus' idea. If we do a careful analysis of the device in modern terms, we find out that things are not so simple as they seem.这些问题和隐含的解释中可以找到许多文章,显然是最自然的办法,压缩Taisnierus '的想法。如果我们仔细分析该装置在现代而言,我们发现,事情并不那么简单,他们似乎。 Look at the forces which act on the iron ball.看看部队采取行动的铁球。 Of course, the position of the magnet, the slope of the ramp and the location of the openings must be carefully adjusted.当然,位置的磁铁,坡度的坡道和位置的开口必须认真调整。 To our surprise, this device does not violate the law of energy conservation - but it does violate the second law of thermodynamics!我们的意外,这个装置并不违反法律的能量守恒-但它确实违反了热力学第二定律!
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检查了这一点,并解释其工作方式! m 米 mass of the iron ball 大量的铁球 f 1 第 1 attracting magnetic force at the lower end of the ramp 磁力吸引了在低端的坡道 f 2 第 2 attracting magnetic force at the upper end of the ramp 磁力吸引在高端的坡道 f H f H down force of the ball, |f H | f g f 克 f g = mg weight force of the ball, |f g | can drop through the opening in the upper ramp 可以通过减少在开幕式上匝道 我们应该牢记,威尔金斯是第一个科学家谁也向前迈出的一大步科学,因为他取代许多猜测实验。然而,这并不妨碍他作出非常witful思考(可能)众生的月球。 It should take some more years until an Isaac Newton stated Hypotheses non fingo .它应采取一些更多年,直到艾萨克牛顿指出假说非fingo 。 John Wilkins' scientific work also addressed educated common people - an aspect which shall not be underestimated if we regard the common scientific culture in Europe at his time, most scientists communicating in latin laguage.约翰威尔金斯的科学工作也给普通民众的教育-一个方面,不应低估,如果我们的共同方面的科学文化在欧洲的时间,大多数科学家在拉丁美洲沟通的语言。 Thus Wilkins can be named one of the fathers of modern science.因此,威尔金斯可以命名一个父亲的现代科学。 1922, a modern variant has been described by Prachar 2) . 1922年,一个现代化的变种已被描述的Prachar 2 ) 。 Here, an arrangement of magnets pulls a steel ball up.在这里,安排磁铁钢拉球了。 The ball is guided by a ramp or tube. Michal adds: &...where the problem of moving the ball back was not solved by the inventor.&球指导的坡道或管。 科瓦奇说: “ ...那里的问题,转移球后没有解决的发明者。 ” (p.139) (临139 )
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Prachar's solution with permanent magnets Prachar的解决方案与永磁体 in alternating arrangement 在交替安排 The existence of the modern SMOT shows, that bishop Wilkins' idea and the 1922 concept are attractive for todays inventors as well.存在的现代SMOT表明,主教威尔金斯'的想法和1922年有吸引力的概念为今天的发明者以及。
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William Gilbert (24 May 1544-30 Nov. 1603) was Elizabeth I's royal physician. Moreover, Gilbert was the first to systematically study phenomena caused by the earth' he was the one who proved that the compass needle always points to the magnetic north pole of the earth.威廉吉尔伯特( 5月24日03年11月)是伊丽莎白一世的王室医生。此外,吉尔伯特是第一个系统研究的现象所造成的地球磁场,他是一个谁证明,磁针总是指向磁北极的地球。 At Gilbert's time the reasearch of magnetic phenomena was thoroughly performed, as scholars expected many new ideas and findings.在吉尔伯特的时间reasearch磁现象被彻底执行,作为学者预期许多新的想法和调查结果。 But the theory of magnetic fields was not developed and the hope to invent the PMM by using magnets was fed by dreadful tales like those about the fate rock or magnet mountain which ruined every ship coming too close by pulling out all nails due to its terrible magnetic power.但是,理论的磁场并不是发达国家和希望发明产品市场管理使用磁铁是助长了可怕的故事一样的命运岩石或山区的磁铁毁今后每艘船舶太接近了退出所有钉子由于其可怕的磁场力量。 Gilbert's book De Magnete 3) (1600) was widely read and extremely influential.吉尔伯特的书德Magnete 3 ) ( 1600 )被广泛阅读和极具影响力。 Gilbert was no follower of pepetual motion concepts.吉尔伯特没有追随者pepetual运动的概念。 Actually, in chapter XXXV, he cites some names and explicitly denies the possibility of these devices.其实,章三十五,他列举一些名称,并明确否认的可能性,这些设备。 Here's a machine which embodies the fallacies of the magnetic PMM.这是一台机器,它体现的谬论磁产品市场管理。 Occasionally in cartoons or recreational physics we find drawings like this, which illustrates how a magnet can be used to propel a ship or car.偶尔在漫画或娱乐物理学我们找到这样的图纸,这说明磁铁可用于推进船舶或汽车。 I don't know when this idea originated nor if the concept ever was seriously suggested.我不知道什么时候这个想法源于也不如以往的概念是认真建议。
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H.-P. H.-P. Gramatke's version of the magnetic car Gramatke版的磁性汽车 The Jesuits耶稣会 Some Jesuits, amongst them some of the most outstanding scholars of the seventeenth century, Athanasius Kircher (2 May 1601-30 Oct.1680) and his pupil Caspar Schott (5 Feb. 1608-22 May 1666) studied the creation of perpetual motion on earth by man's hands.一些耶稣会士,其中包括一些最杰出的学者在十七世纪,亚他那修斯珂( 5月2日1601年至1630年Oct.1680 )和他的学生卡斯帕肖特( 2月5日一六○八年至年5月)研究建立对永动机地球人的手中。
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Athanasius Kircher explored the effects of the magnetic lodestone, as William Gilbert did before him. 亚他那修斯珂探讨了影响天然磁石的磁性,因为威廉吉尔伯特没有在他面前。 The universal scholar Kircher seemed to have an ambivalent opinion about perpetual motion devices, which did not prevent him from inventing several PM machines. One of his constructions is a wheel with radial iron points rotating in the field of four magnets.学者的普遍斯珂似乎有一种矛盾的看法永动机装置,但没有阻止他发明了永磁机。之一,他的建筑是一个车轮的径向旋转铁分领域中的四个磁铁。 Technically speaking, this was a further development of Pierre de Maricourt's idea.从技术上讲,这是一个进一步发展的皮埃尔德马里古的想法。 But the genius Kircher also did not succeed in inventing an operable PM device.但天才斯珂也没有成功地发明了一种可操作性下午装置。 In Schott's 1664 magnum opus Technica Curiosa we find not only descriptions of the sensational experiments performed by Otto von Guericke, but also numerous images and descriptions of the most recent perpetua mobilia of mid-seventeenth century.在肖特的1664年大作品Technica的Curiosa我们发现不仅说明了耸人听闻的实验所完成的奥托冯格瑞克,而且还大量的图片和说明最近佩尔佩mobilia中17世纪。 Not all of these devices were regarded as operable.并非所有的这些设备被视为可操作性。 Schott gives the example of a stunningly complex mechanism being invented by Johann Joachim Becher ( Technica Curiosa , p.732).肖特给出了例子,令人震惊复杂的机制正在发明的约翰约阿希姆彻( 铁三角Curiosa , p.732 ) 。 The elector of Mainz, Hans Philipp von Schönborn, even erected a tower to house the whole machine and set it into operation.选民因茨,汉斯冯Schönborn菲利普,甚至搭起了一个塔,房子整个机器和设置投入使用。 The gigantic effort was performed to keep a clockwork running!巨大的努力是为了保持发条运行!
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The machine's inventor closed his project after many unsuccessful years of work with the words: &Ten years I've pursued this foolishness, and have wasted much time, money and reputation, but I can announce without fame [sic] that the motus perpetuus is impossible.& 4) (cf. Michal , p.30).这台机器的发明者关闭了许多项目失败后,多年的工作的话: “ 10年我已经奉行这一愚蠢,而且浪费大量时间,金钱和声誉,但我可以宣布没有名利[原文]该是motus perpetuus不可能的。 “ 4 ) (参见科瓦奇 ,临30 ) 。 Besides the best known members of the Jesuit order were others who fell addict to the search of perpetual motion:除了最有名的成员是耶稣为了别人谁下跌成瘾的搜索永动机: Christoph Scheiner, who discovered sunspots (independently from Galilei and at the same time) invented a primitve &Gnomon Scheineriani&, for which he earned derisive laughter and malicious comments.克里斯托弗沙伊纳,谁发现了太阳黑子(独立于伽利略和在同一时间)发明了一种primitve “ Scheineriani教程” ,为此他赢得嘲笑笑声和恶意的评论。 Stanislaus Solski, who described around 1610 a complicated oscillating machine to lift water with ropes, levers and buckets.斯坦尼斯Solski ,谁在1610年描述一个复杂的振荡机,升降机水绳索,杠杆和水桶。 Christoph Grünberger(us), who was A. Kircher's predecessor mathematian of the Jesuit order at the Collegio Romano gave the theory of a PM based on spiral shapes which were calculated in a tedious way.克里斯托弗Grünberger (我们的) ,谁是字母a.斯珂的前任mathematian的耶稣秩序学院普罗迪了理论的基础上下午螺旋形状的计算在乏味的方式。 The already abovementioned Johannes Tainierus.已经上述约翰内斯Tainierus 。 Schotts Technica Curiosa contains so many references to Jesuits that one can easily get the impression that in the seventeenth century the whole Societas Jesu was infected by the perpetual virus. Schotts Technica的Curiosa含有如此多的提及耶稣,人们可以很容易得到的印象是,在17世纪整个学会耶稣是感染了永久的病毒。 Hydraulic Perpetua Mobilia液压佩尔佩Mobilia A very simple PMM consists of a tubular ring filled with two liquids of different density.一个非常简单的产品市场管理由环管状充满液体的两个不同的密度。 The difference of the levels is expected to provide an asymmetric force, thus causing the wheel to rotate.差异水平预计将提供一个不对称武力,从而使车轮转动。 Unfortunately, the two liquids are always in balance, whatever the densities of the liquids are.不幸的是,两个液体总是平衡的,无论密度的液体。 This principle can be traced back to the year 1150 to Bhaskara's Siddhanta Siromani . 5)这一原则可以追溯到1150年,以巴斯卡拉的瓦希丹塔Siromani 。 5 )
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A two-liquid perpetum mobile 两液体perpetum移动 Even simpler is the next device.即使简单的是下一个装置。 A wooden wheel is at one side only partially immersed in a water tank.木车轮是一方只有部分浸在水箱中。 The asymmetric buoyancy force was supposed to keep the wheel rotating.不对称浮力是要保持车轮转动。 The inventor of this machine did not take in account that pressure in liquids always acts from all sides and exerts forces perpendicularily on the surface of the submerged object.发明这种机器没有考虑到,在液体中的压力始终行为从四面八方和发挥部队perpendicularily表面上的水下物体。 This is a common misunderstanding about the way upward buoyant forces are generated.这是一种常见的误解蓬勃向上的方式产生的力量。 The wooden wheel proved to be a perpetuum stabile , which is not surprising at all.木轮证明是一个垂直稳定 ,这并不奇怪了。
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Buoyancy perpetuum mobile 浮力垂直移动 Denis Papin (22 Aug. 1647 - 23 Jan. 1712) was a French physicist who made the first reasonable designs for steam engines.丹尼斯帕潘( 日-1 712年1月2 3号)是法国物理学家谁制造了第一合理设计的蒸汽火车头。 He also invented the steam cooker (pressure cooker).他还发明了蒸汽炊具(压力锅) 。 Papin suggested the simplest hydraulic PM one can imagine.帕潘建议最简单的液压下午可以想见。 It had no moveable mechanical parts and its function should be based on the pressure excess in the large container that forces the liquid column in the thin tube upwards.它没有可移动的机械部件及其功能的基础应该是多余的压力,在大型容器,部队的液柱在细管向上。 A similar suggestion was made by Robert Boyle (25 Jan. 1627 - 30 Dec 1691), who thought that a very narrow bore tube would allow a liquid to rise continually by capillary effects.类似的建议是由罗伯特波义耳( 日-1 691年1 2月3 0日) ,谁想到一个非常狭窄的口径钢管将允许液体不断上升的毛细管作用。 Although both concepts frequently are illustrated by the same schematic image, their intended principle of operation is completely different.虽然这两个概念经常是说明了同样的原理形象,其用意原则运作是完全不同的。 Nevertheless, none of these ideas worked.然而,所有这些设想的工作。
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Violation of the hydrostatic equilibrum 违反流体静力学平衡 Papin should have known better. 帕潘应该知道更好。 Years earlier, the french philosopher, physicist and mathematician Blaise Pascal () invented a device to measure the hydrostatic pressure. 几年前,法国哲学家,物理学家和数学家布莱斯帕斯卡尔( 1623年至1662年)发明了一种装置来衡量的静水压力。 This device even today is named after its inventor Pascal's apparatus (?). 这个装置即使在今天的名字命名,它的发明者帕斯卡器具( ? ) 。 But long before both, Simon Stevin made first experiments of this type. 但是,双方很久以前, 西蒙斯蒂文首次试验了这种类型的。 Cf. Recknagel, Experimentalphysik p.68. 比照。 Recknagel , Experimentalphysik临68 。 Later engineers tried their luck with buoyancy PMMs based on other principles. In the apparatus shown here, the inventor understood that the liquids in the two tubes of different length were in hydrostatic equilibrum in the two tubes.后来工程师们试图与他们的运气PMMs浮力的基础上其他的原则。在这里显示装置的发明者了解,液体在两管的不同长度是在流体静力学平衡的两个管。 But he thought he could still exploit the unequal heights to maintain motion of something else.但是,他认为他仍然可以利用不平等的高度,以保持运动的其他东西。 Let's examine the intended operation of this machine! The U-tube contains two liquids of different density (say water and mercury), which are in static equilibrum.让我们审查打算运作的这台机器!的U型管包含两个不同的液体密度(比如水和汞) ,这是在静力平衡。 The balls are light enough to rise in both liquids.该球是轻足够的上升在液体。 A single ball rises in the left part of the tube, pops out and falls down.一个球上升的剩余部分管,持久性有机污染物和瀑布下降。 With this, it drives a wheel which can provide useful work.由于这一点,四轮驱动可以提供有益的工作。 Then the ball drops onto the top of the pile of balls in the right hand part of the tube.然后滴上球顶部的桩球在右手部分管。 The pile is heavy enough to force the lowest ball under the deepest point of the U-tube.桩十分繁忙,不足以迫使球的最低下的最深点的U型管。 Thus, the lowest ball will be free to rise in the left tube.因此,最低的球将是免费的上升在左管。 It's not easy to explain in simple terms why this cyclic process cannot work.这并不容易解释简单来说,为什么这个循环过程不能工作。
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An almost workable hydraulic- 几乎是可行的液压 mechanic perpetuum mobile 机械垂直移动 William Congreve (20 May 1772 - 16 May 1828), an English officer who introduced rockets onto the battlefield, made a drawing of a PMM working by capillary effects in sponges.威廉康格里夫( 号-1 828年五月1 6号) ,军官的英语介绍了火箭谁的战场上,提出了制定一个产品市场管理工作的毛细管效应的海绵。 The principle of operation is simple: the sponges on the left hand side fill with water and get heavier.的原则,操作简单:海绵左侧填补水和得到加重。 In this way a downward force arises which keeps the chain moving in counterclockwise direction. The sponges which rise at the right hand side are squeezed by the pressure of the heavy chain-plates (therefore they weigh less).这样的下降产生的力使链朝着逆时针的方向发展。其中的海绵市场上的右边是挤压的压力重链板(因此他们体重不足) 。 Congreve calculated the considerable power his machine could generate.康格里夫计算了相当大的权力他的机器可以产生。 But alas!但是,唉! Although this is a clever design, it does not work.虽然这是一个聪明的设计,它不工作。
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Congreves sponge perpetuum mobile Congreves海绵垂直移动 Based on ideas of Giovanni Battista della Porta (), the italian renaissance engineer Vittorio Zonca (1568? - 15 Nov 1602) invented a PM that used the effect of the siphon.基于思想的乔瓦尼巴蒂斯塔教堂门( 1535年至1615年) ,意大利文艺复兴时期的工程师维托里奥宗卡( 1568年-1 602年一十一月1 5日)下午发明了一种使用的效果虹吸式。 Siphons only work when the outlet opening is lower than the inlet.虹吸管只有工作时开幕的出口低于进口。 At Zonca's time this fact was not correctly known which made the construction seem to be a realistic option to obtain a perpetual energy source.在宗卡的时间这一事实是不能正确地知道其中的建设似乎是一种现实的选择,以获得永久的能源。 Look at the strange belly shape of the siphon!看肚子形状奇怪的虹吸! It is not caused by poor skills of the draftsman, but by the idea, that a larger cross-section at the outlet will compensate the lack of height.这不是穷人造成的技能,制图,但这一想法,认为较大的横截面的出口将弥补缺乏高度。 The whole idea seemed plausible, as the siphon effect was not explained by air pressure but by the aristotelian horror vacui . Ie nature &abhors a vacuum&, meaning &nature cannot produce a vacuum.&整个构思似乎合理的,因为虹吸效应并不说明空气压力,而是由亚里士多德 恐怖vacui 。伊江性质“厌恶真空” ,意思是“性质不能产生一个真空。 ”
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Syphon perpetuum mobile 战士垂直移动 Electric Perpetua Mobilia电气佩尔佩Mobilia Besides the famous radium clock many other electric PM devices were invented.除了著名的镭时钟许多其他电气设备时发明的。 One of the earliest examples is based on the electric charge generated by two Zamboni elements (a type of dry battery).最早的一个例子是基于电荷所产生的两个要素赞博尼(一种干电池) 。 As the mechanism needs only little power, it ran very long. Ord-Hume reports from a device that was set into motion around the 1840s and lasted for 150 years.由于机制只需要小功率,它跑很长时间。条例,休姆的报告从一个装置,是把周围的议案1840年,历时150年。
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Electrostatic perpetuum mobile 静电垂直移动 The galvanic batteries are 该电池电 concealed inside the columns 藏列 A different device based on the same principle. 另一种不同的设备基于同样的原则。 It was not intended to be a PM at all! 它并不打算成为一个时,在所有! This sensitve instrument was used in the laboratory to check electric charges. 这sensitve仪器被用来在实验室检查电费。 As there was already pre-charge applied to the electroscope, an additional little charge caused reaction. 由于已经有预充电适用于验电器,额外收取很少引起的反应。 Only the adjustment had to be set correctly beforehand to prevent the electroscope from oscillations. Cf. Recknagel, Experimentalphysik p.489. 只有调整,必须事先设定正确,以防止验电器由振荡。参阅。 Recknagel , Experimentalphysik p.489 。 Machine inventions which use electric motors mechanically coupled with generators and some electric trickery are abundant.机的发明使用电动马达机械再加上一些发电机和电动弄虚作假丰富。 As electric and mechanic power can be converted into each other, these machines worked as well as their mechanical equivalents, the recirculation mills.作为电力和机械力量可以转化成对方,这些机器的工作以及相应的机械,工厂的回流。 In mechanical mills there are friction losses which can't be avoided - in these electromacnetic machines we find resistance losses.在机械厂有摩擦损失无法避免的-在这些e lectromacnetic机器我们发现阻力损失。 So this also proved to be the wrong way to get a PMM running. But this knowledge is not so widely spread as one may expect, as is demonstrated by Don Martin's corner-ring generator .因此,这也被证明是错误的方式获得产品市场管理运行。但是这方面的知识并非如此广为传播作为一个可期待,这证明了唐马丁开出的角球环发生器。
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Electric motor & generator perpetuum mobile 电动机及发电机垂直移动 M&&electric motor 电动马达&&G G&&generator, mechanically driven by M 发电机,机械驱动用M&&LS 最小二乘&&charge and control electronics 收费和控制电子产品&&A 字母a&&accumulator 蓄电池
化学佩尔佩Mobilia The previous chapters have concentrated on concepts of physical perpetual motion devices.以前的章节都集中在物理概念的永动机装置。 This chapter gives a brief overview on alchemistic and chemical perpetua mobilia.本章概述了对炼金术和化学佩尔佩mobilia 。 A perpetual motion device needs not neccessarily a rotating wheel or an electric circuit.阿永动机设备的需求不一定是旋转方向盘或电路。 Occasionaly, we find legends and reports of objects which fulfil the typical property of perpetual motion machines: they generate energy out of nothing. Occasionaly ,我们发现传说和报告的物体履行典型的财产永动机机:它们产生能量无中生有。 The oldest reports are those of eternal lamps. Some alchemistic recipes and concepts also are close akin to perpetual motion.最早的报告是永恒的灯。一些炼金术的食谱和概念也已接近类似于永动机。 The alchemy is, according to today's knowledge, considerably older than the first known plans and ideas for perpetual motion machines.是的炼丹术,根据今天的知识,大大超过了第一个已知的计划和设想永动机机器。 Magnet Stones and Eternal Lamps永磁石块和永恒的灯 Pliny the Elder (23 or 24-79A.D.) described in his natural encyclopaedia Historia Naturalis the magnet stone and his effects.老普林尼( 23或24 79A.D 。 )描述在他的自然百科全书历史自然磁铁石和他的影响。 For us, a remark considering a temple is interesting.对于我们来说,一句话考虑寺庙很有意思。 There, a iron statue should be kept freely floating in a niche by the forces of magnet stones.因此,一个铁的雕像应该保持自由浮动在一个特殊的部队磁铁石头。 Although this is no perpetual motion machine, it was regarded to be physically impossible until recent times when the floating magnetic gyroscope was inventend.虽然这是没有永动机,它被认为是实际上不可能,直到最近的时候,浮磁陀螺仪是inventend 。 cf. the magnet section of this site.比照。 磁铁节本网站。 &Magnete lapide architectus Timochares Alexandriae Arsinoes templum concamarare incohaverat, ut in eo simulacrum e ferro pendere in aëre videretur. intercessit ipsius mors et Ptolemaei regis, qui id sorori suae iusserat fieri.& “ Magnete lapide architectus Timochares Alexandriae Arsinoes templum concamarare incohaverat , UT斯达康在13224拟像é铁合金pendere在艾利videretur 。 intercessit ipsius mors等Ptolemaei吉斯,归仁编号sorori爱iusserat扣押。 ” Lib.库。 XXXIV.148 Pliny Internet editon XXXIV.148 普利尼互联网版 &The architect Timochares had begun to use lodestone for constructing the vaulting in the Temple of Arsinoe at Alexandria, so that the iron statue contained in it might have the appearance of being
but the project was interrupted by his own death and that of King Ptolemy who had ordered the work to be done in honour of his sister.& “建筑师Timochares已经开始使用天然磁石建设中的跳马庙阿尔西诺伊在亚历山德里亚,使铁中所载的雕像它可能出现被暂停半空中;但该项目被打断了他自己的死亡和这国王托勒密谁下令工作要做有幸他的妹妹。 “ (transl. by Rackham) 1) ( transl.的拉克姆) 1 ) More interesting are Pliny's considerations on the 'adamas' (ie most probably diamond 2) which can amplify or diminuish the force of magnets.更有趣的是普利尼的思考' adamas ' (即最有可能的钻石2 )可以放大或diminuish武力的磁铁。 Unwillingly, he laid the foundation for some physical-alchemistic perpetual motion concepts.不情愿,他奠定了基础,对一些物理炼金术永动机的概念。 &adamas dissidet cum magnete in tantum, ut iuxta positus ferrum non patiatur abstrahi aut, si admotus magnes adprehenderit, rapiat atque auferat. adamas et venena vincit atque inrita facit et lymphationes abigit metusque vanos expellit a mente.& “ adamas dissidet暨magnete在tantum , UT斯达康iuxta positus铁非patiatur abstrahi引渡,市admotus马格内斯adprehenderit , rapiat atque auferat 。 adamas等venena vincit atque inrita facit等lymphationes abigit metusque vanos expellit一门。 ” Lib.库。 XXXVII.61 Pliny Internet edition XXXVII.61 普利尼网络版 &The 'adamas' has so strong an aversion to the magnet that when it is placed close to the iron it prevents the iron from being attracted away from itself. Or again, if the magnet is moved towards the iron and seizes it, the 'adamas' snatches the iron and takes it away.&他说: “ adamas '有如此强烈的反感磁铁,当把它放在靠近它妨碍铁的铁被吸引了远离自己。又或者,如果磁铁是走向铁和抓住它, ' adamas '片段的铁并带走。 “ (transl. by Rackham) 1) ( transl.的拉克姆) 1 ) Pliny busily collected knowledge and compiled it in his books, but not everything that was reported by him, proved to be correct.普利尼忙着收集汇编的知识和在他的书,但不是一切,他的报告,证明是正确的。 Some of his remarks are surprising, as they could have easily been proved or disproved by simple experiments.他的一些言论是令人感到意外,因为他们可以轻易地被证明或反驳通过简单的实验。 Those who are interested in details, should have a closer look into the internet edition of Pliny's natural encyclopaedia . 1) .这些谁感兴趣的细节,应该有一个更密切的调查网络版的普林尼的自然百科全书。 1 ) 。 Trithemius (1.2..1516), who is also important for the history of cryptology, described several eternal lamps. Trithemius ( 1.2..1516 ) ,谁同样重要的是,历史上的密码,介绍了永恒的灯。 The legend of the opening of Cicero's daughter Tullia's grave is known.据传说,开放的西塞罗的女儿Tullia的严重是众所周知的。 It is said that a lamp has been found which seemed to be burning since Tullia's burial.有人说,一盏灯已发现这似乎是自Tullia燃烧的葬礼。 When the tomb was openend, the lamp ceased to work and could not be lit again.当古墓被openend ,灯停止工作,不能再次点燃。 A good overview about ever-burning lamps is given by the internet web site& .一个很好的概括约以往任何时候都燃烧的灯是由互联网网站 。 John Wilkins dedicated a large chapter of his Mathematical Magick on eternal lamps and explanations how they might have worked.约翰威尔金斯专用大章,他的数学Magick对永恒的灯和解释它们如何工作。 Centuries after these pages have been written, they are still relevant for this topic.百年后,这些网页已经写,但它们仍然适用于这一议题。 F. Ozanam, a 19th century theologist, (not to be confused with the Récréationes mathematiques ' author), wrote eight pages about ever-burning lamps. Ozanam楼,一座19世纪的theologist , (不能混为一谈数学Récréationes作者) ,写8页的以往任何时候都燃烧的灯。 The major question which arises is, how much of these reports is legend and how much is in the range of the possible.主要问题产生的,有多少这些报告的传奇人物,又有多少是在一系列可能的。 The follow-up question should be: what allows the assumption that the found lamps were lit since their supposed start of use?后续问题应该是:什么可以假设,即发现灯被点亮,因为它们理应开始使用? Was there any opprtunity for fraud?没有任何回报的欺诈行为? A few theories might reasonably explain why these lamps could have worked for a long period of time.有几个理论可以合理解释为什么这些灯可以工作了很长一段时间。 The idea is that lamps of this type were mounted at a fixed location and made use of a natural reservoir of oil or gas.这种想法是灯这种类型的是安装在一个固定的位置,并利用自然水库的石油或天然气。 The fueling by a combustible medium plausibly explains the long-lasting operation. After being removed, these lamps of course could not be lit again.该燃料的燃烧中振振有辞解释了长久运作。拆除后,这些灯,当然不能再次点燃。 In contrast to a perpetual motion device, this type of invention is feasible and works almost eternally - for human time.与此相反的永动机装置,这种类型的发明是可行的,并且几乎永远工程-为人类的时间。 However, this is no generation of energy out of nothing.然而,这是任何一代人的能量无中生有。 The lack of evidence for these lamps imposes a problem, as (as}
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