![](pumpe_12870.jpg) | A FAST MODEL WITH AN ECCENTRIC ROTOR |
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![](pumpe_13160.jpg) | The analogy of the instrument is the same with the fast model, |
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![](pumpe_13295.jpg) | which has 12000 rpm, depending on the durability of the material. |
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![](pumpe_13495.jpg) | A two armed lever, or seesaw, is positioned on a spring. |
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![](pumpe_13650.jpg) | On the other side, there is an eccentric rotor and a drill with 12000 rpm. |
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![](pumpe_13900.jpg) | When we start the eccentric rotor, the pendulum, i.e. the two armed lever, |
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![](pumpe_14145.jpg) | which is made of light material, starts oscillating. |
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![](pumpe_14245.jpg) | When the motor slows down, low voltage occurs, and power consumption increases. |
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![](pumpe_14455.jpg) | However, if we slow down the two armed lever, we do not see the same phenomenon, |
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![](pumpe_14635.jpg) | which is unusual when compared with power transmission. |
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![](pumpe_14775.jpg) | If we were to burden one cogwheel, |
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![](pumpe_14850.jpg) | the other would also be burdened, or vice versa. |
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![](pumpe_15005.jpg) | However, that does not happen with double transmission based on these oscillations. |
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![](pumpe_15180.jpg) | That means that we have an aberration of current theories. |
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