The machine featured in Moonraker (1979) that James Bond (Roger Moore) has an incident in is known as a human centrifuge, or simply a centrifuge, used by pilots and astronauts for high-G training.
That means that if you use a simple machine to apply less force, you need to compensate by applying the force over a larger distance - for example, to lift up a weight or do some other work.
Since we know by conservation of energy that no machine can output more energy than was put into it, the ideal case is represented by a machine in which the output energy is equal to the input energy. For simple geometries in which the forces are in the direction of the motion, we can characterize the ideal machine in terms of the work done as follows: Ideal Machine: Energy input = Energy outputWork input = Fedinput = Frdoutput = Work output From this perspective it becomes evident that a simple machine may multiply force. That is, a small input force can accomplish a task requiring a large output force. But the constraint is that the small input force must be exerted through a larger distance so that the work input is equal to the work output. You are trading a small force acting through a large distance for a large force acting through a small distance. This is the nature of all the simple machines above as they are shown. Of course it is also possible to trade a large input force through a small distance for a small output force acting through a large distance. This is also useful if what you want to achieve is a higher velocity. Many machines operate in this way. The expressions for the ideal mechanical advantages of these simple machines were obtained by determining what forces are required to produce equilibrium, since to move the machine in the desired direction you must first produce equilibrium and then add to the input force to cause motion. Both forceequilibrium and torque equilibrium are applied.
Darth Vader has most of the Force powers as a normal Dark Side user. Unfortunately, with the loss of his limbs, he did lose some strength in the Force. Since the Force flows through living things, and Vader was now more machine than man, he wasn't as formidable as he was when he was full human. However, he was still a powerful Sith. The only power that I know of that he did not learn or could not was Force Lightning. That would pretty much fry his mechanical breathing control device. I learned this through much discussion and believe I also read in the back of one of the Expanded Universe novels George Lucas' answer to this question.
it is unknown as of right now, but her love interest is Jagged Fel. it is likely that they will marry, resulting in the force-sensitive Emporer Roan Fel in the Legacy comics, nearly a hundred years later. (he'd probably be a grandson or great-grandson)
No. But Crystal's best-known action movie was "Running Scared," a 1986 film in which he and Gregory Hines played Chicago detectives looking forward to retirement from the force.
2 forces are always involved when using a machine. * Effort Force - FE - the force applied to a machine. * Resistance Force - FR -the force applied by a machine.
the force you apply to a simple machine is force
Mechanical Force is the force that is applied by a machine.
Mechanical Force is the force that is applied by a machine.
Effort force - Force applied to a machine when a machine is used to do work. A. Monjay Sutherland
To find the mechanical advantage of a simple machine divide output force by input force. (input force is the force that we exert on a machine, and output force is the force that is exerted by a machine).
The force that the machine exerts is the out put force. This is the science definition.
the input force is how much energy or force you put into the machine, the output force is how much energy the machine produces with the end product.
The machine has to leverage the original force in such a way as to multiply it.
The machine has to leverage the original force in such a way as to multiply it.
Force put into a simple machine is a?
Input force is the force you put in to a machine. Output force is a force exerted by a machine.