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What is the number of times a machine increases the force exerted on the machine?
The number of times a machine increases a force exerted on it is called mechanical advantage.
What machine increases distance and how is the force changed?
A lever can be used to increase distance by applying a smaller input force over a longer distance to lift a heavier load. The force needed to lift the load is changed by adjusting the length of the lever arm or by changing the position of the input force relative to the pivot point.
What machine increases force?
A machine that increases force is called a mechanical advantage machine. These machines use mechanical components like levers, pulleys, or gears to multiply the input force applied to them, resulting in a greater output force. This allows people to perform tasks requiring more force than they could exert on their own.
What is the number of times a machine increased a force exerted on it?
The number of times a machine can increase a force exerted on it depends on the machine's mechanical advantage. Mechanical advantage is the ratio of the output force produced by a machine to the input force applied to it. This ratio determines how many times the machine can increase the force.
Choose all the statements that are correct about machines. A. The output force is the force the machine puts on an object. B. Machines can increase the total work done. C. A machine increases the amou?
B. Machines can increase the total work done. C. A machine increases the amount of work done by changing the direction or magnitude of the input force.
How is the force changed when a machine increases distance?
Impact increases
How the force is changed when machine increases force?
The machine has to leverage the original force in such a way as to multiply it.
What is the number of times a machine increases the force exerted on the machine?
The number of times a machine increases a force exerted on it is called mechanical advantage.
What machine increases distance and how is the force changed?
A lever can be used to increase distance by applying a smaller input force over a longer distance to lift a heavier load. The force needed to lift the load is changed by adjusting the length of the lever arm or by changing the position of the input force relative to the pivot point.
What is mechanical advantage?
The number a machine increases the input force.
How is force changed when the force is increased?
The machine has to leverage the original force in such a way as to multiply it.
Number of times that a machine increases the input force; equal to the output force divided by the input force?
Yes. The result of that calculation is the machine's mechanical advantage.
Mechanical advantage is defined as the number of times that a machine increases an applied force for a given machine which would always decrease the mechanical advantage of that particular machine?
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).
What machine increases force?
A machine that increases force is called a mechanical advantage machine. These machines use mechanical components like levers, pulleys, or gears to multiply the input force applied to them, resulting in a greater output force. This allows people to perform tasks requiring more force than they could exert on their own.
How does a screwdriver affect a force applied to opening a lid?
it increases the applied force and changed it distance and direction
What is the number of times a machine increased a force exerted on it?
The number of times a machine can increase a force exerted on it depends on the machine's mechanical advantage. Mechanical advantage is the ratio of the output force produced by a machine to the input force applied to it. This ratio determines how many times the machine can increase the force.
How force is changed when machines increases force?
It depends on the working principle of the machine. Like for example in a gear mechanism if you replace the bigger gear with an even bigger one then a smaller amount of force would rotate the smaller gear in the same angular velocity as the initial gear did but with a greater force. But now if you increases the force in the bigger gear the smaller gear would tend to rotate more fast.
