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The work done by torque in rotating an object is the amount of energy transferred to the object to make it rotate. Torque is a force that causes an object to rotate around an axis, and the work done by torque is calculated by multiplying the torque applied to the object by the angle through which the object rotates.
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What is the shaft work formula used to calculate the work done by a rotating shaft?
The shaft work formula used to calculate the work done by a rotating shaft is: Work Torque x Angular Displacement.
What is the shaft work equation used to calculate the work done by a rotating shaft?
The shaft work equation is used to calculate the work done by a rotating shaft. It is given by the formula: Work Torque x Angular Displacement. This equation helps determine the amount of energy transferred by a rotating shaft.
What is the rotational work formula and how is it used to calculate work done in rotational motion?
The rotational work formula is W , where W represents the work done in rotational motion, is the torque applied, and is the angle through which the object rotates. This formula is used to calculate the work done in rotational motion by multiplying the torque applied to an object by the angle through which it rotates.
Work and energy in rotational motion?
There is energy in a rotating mass. Work equal to that energy has to be done on it to get it rotating. But it will keep on rotating without any additional work or energy, unless it is slowed down by friction, or other forces.
When torque is applied does it always accomplish work?
No, torque is a twisting force that can be applied to an object without necessarily resulting in work being done. For work to be accomplished, the torque must cause the object to rotate and move a distance in the direction of the force.
What is the shaft work formula used to calculate the work done by a rotating shaft?
The shaft work formula used to calculate the work done by a rotating shaft is: Work Torque x Angular Displacement.
What is the shaft work equation used to calculate the work done by a rotating shaft?
The shaft work equation is used to calculate the work done by a rotating shaft. It is given by the formula: Work Torque x Angular Displacement. This equation helps determine the amount of energy transferred by a rotating shaft.
What is the rotational work formula and how is it used to calculate work done in rotational motion?
The rotational work formula is W , where W represents the work done in rotational motion, is the torque applied, and is the angle through which the object rotates. This formula is used to calculate the work done in rotational motion by multiplying the torque applied to an object by the angle through which it rotates.
Work and energy in rotational motion?
There is energy in a rotating mass. Work equal to that energy has to be done on it to get it rotating. But it will keep on rotating without any additional work or energy, unless it is slowed down by friction, or other forces.
When torque is applied does it always accomplish work?
No, torque is a twisting force that can be applied to an object without necessarily resulting in work being done. For work to be accomplished, the torque must cause the object to rotate and move a distance in the direction of the force.
What is clockwise and anticlockwise torque?
Clockwise, top rotating to the right, and counterclockwise, top rotating to the left is only a perspective based on the position of the observer. The torque is the rotational force of the rotating object. Most often the perspective of the observer is from the driving end of a shaft facing the driven machine. The amount of torque at a given speed of the driving machine (engine or motor) is mechanically converted into work by the driven machine (generator, pump, compressor...etc.).
What is the work done in rotating a electric dipole in uniform electric field from parallel position to anti-parallel position?
The work done in rotating an electric dipole in a uniform electric field from parallel position to anti-parallel position is zero. This is because the torque applied to rotate the dipole is perpendicular to the direction of the electric field, so the work done is zero.
What is difference between speed and torque?
Speed refers to how fast an object is rotating or moving, while torque is the force that causes an object to rotate around an axis. Speed is measured in units like revolutions per minute (RPM) or meters per second, while torque is measured in units like Newton-meters or foot-pounds. In a mechanical system, speed and torque are related through the equation power = torque x speed, where power represents the rate at which work is done.
Does torque and work are equivalent?
Torque is rotational force, while work is energy transferred between objects. For example, a screw experiences mostly torque as you twist it around its axis, while a nail experiences mostly work as it is driven straight into the wood.
How does the torque make work easier?
Torque is a measure of rotational force that can make it easier to turn objects or overcome resistance in rotating mechanisms. By applying torque efficiently, work can be done more effectively with less effort, making tasks like loosening bolts, opening jars, or lifting heavy objects more manageable.
When can you say that work is done on an object?
when a force acts to move an object,we say that work was done on the object
Where does the earth find the power to rotate?
It doesn't work like that. You don't need power to keep an object rotating. Any object that is rotating will continue rotating, unless it is slowed down, by friction for example.
