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Does not multiply energy. Work done or energy used (force * distance) remains the same at both ends. Force or torque can be increased or decreased depending on mechanical advantage. It can change the direction of the force or torque.
Yes. If you ram your car into a wall, you are using both force and speed to achieve that goal.
No. The machine can multiply input force if it's built to do that. But when it does,it divides the distance by the same amount. So the product of (force x distance)comes out the same as what went in. The product of (force x distance) is the inputwork, or energy, so that doesn't change.(In fact, some of it is always lost going through the machine, so what comes outis always a little less than what went it.)
No machine can increase or multiply work. The work that comes out of a machineis theoretically the same as what goes in, but in the real world, what comes outis always a little less than what went in.Work is (force) multiplied by (distance). A machine can multiply or increase theforce or the distance, but whichever one it multiplies, it divides the other oneby the same amount. So the product of (force) times (distance) doesn't change.
In a closed system in the "real world" in which we live, there are losses associated with friction and other actions. These forces "take energy" from the system between its input and output. When we apply force to the imput of a system, some is lost as the force is transferred through that system. That means that the output force we observe will always be a bit less than the input force. A transmission in a vehicle is a classic example of the idea that there are losses between the input and the output of a system. The input from the engine will always be a bit greater than the output at the tailshaft (or axles for a transaxle) due to losses within the transmission.
Does not multiply energy. Work done or energy used (force * distance) remains the same at both ends. Force or torque can be increased or decreased depending on mechanical advantage. It can change the direction of the force or torque.
Yes. If you ram your car into a wall, you are using both force and speed to achieve that goal.
No. The machine can multiply input force if it's built to do that. But when it does,it divides the distance by the same amount. So the product of (force x distance)comes out the same as what went in. The product of (force x distance) is the inputwork, or energy, so that doesn't change.(In fact, some of it is always lost going through the machine, so what comes outis always a little less than what went it.)
No machine can increase or multiply work. The work that comes out of a machineis theoretically the same as what goes in, but in the real world, what comes outis always a little less than what went in.Work is (force) multiplied by (distance). A machine can multiply or increase theforce or the distance, but whichever one it multiplies, it divides the other oneby the same amount. So the product of (force) times (distance) doesn't change.
Same as light.
Is a trampoline a pulley system
It's never been measured, but it is assumed to be the same as the speed of light.
The force of an washing machine can wash 10-15 clothes at the same time.
In a closed system in the "real world" in which we live, there are losses associated with friction and other actions. These forces "take energy" from the system between its input and output. When we apply force to the imput of a system, some is lost as the force is transferred through that system. That means that the output force we observe will always be a bit less than the input force. A transmission in a vehicle is a classic example of the idea that there are losses between the input and the output of a system. The input from the engine will always be a bit greater than the output at the tailshaft (or axles for a transaxle) due to losses within the transmission.
You get a speed. If the 'Hertz' is the frequency of a particular wave, and the 'meters' is the wavelength of the same wave, then their product is the speed of that wave.
Work: The work done by the force is the same as the work done on the load in an ideal simple machine.
Force causes acceleration, not motion. A moving object undergoing zero net force will continue to move in the same direction at the same speed.