Rotational torque to linear force
[DOC File]Rotational Equilibrium - Hendrix
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Chapter 8 Rotational Equilibrium and Dynamics. Torque – the ability of a force to rotate an object around some axis. Net torque produces rotation. Occurs around an axis of rotation – usually a hinge. Imaginary line passing through a hinge. Torque depends on force and lever arm. Ease of rotation depends on: How much force is applied
[DOCX File]: rigid bodies, rotational dynamics
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Rotational equilibrium and torque. Torque is a quantity that measures the ability of a force to rotate an object around some axis. Torque depends upon the component of force perpendicular to the axis of rotation and the distance of the force from the axis of rotation. A force applied parallel to the axis will not produce torque. ( = Fr (sin ...
Torque - Wikipedia
Now we must connect the two forces, or, rather, the linear force F with the torque acting on the system mass + wheel. The torque is just equal to the force F multiplied by its leverage arm R, that is, = FR. Putting this together with a = R , we find that F = Ma translates to: = FR = MaR = MR2
[DOC File]Notes Ch 7 – Rotational Kinematics
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This product is called torque, or ( (the greek letter tau). Actually torque is not the product of mass and distance but the product of force and distance: where F is the amount of force and r is the distance of the force from the rotation point. (The force in our case has been the gravitational force, mg, on the masses.
[DOC File]Comparison of Linear Motion and Rotational Motion, PHY ...
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Force=ma τ = I α . p= F t L= τ t . I want you to really look at the two sides and how rotation equations compare to linear equations. Save these equations!!! Between the two sides, what do each of the following change to in the new equations.
[DOC File]Worksheet 50- Rotational Motion - Weebly
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Solve problems using rotational quantities analogous to linear quantities – the rotational equivalent of SUVAT. ... If a force F of 120N is applied perpendicular to the lever ... 900 so sin 900 In the second diagram, the torque is reduced because the effort force is no longer at 900 to the lever. Find the angle between the effort force and ...
[DOC File]Chapter 8: Rotational Motion
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Linear Motion. Displacement Velocity Acceleration Constant acceleration equations. Mass m. Momentum Force F. Power Newton’s 2nd Law Equilibrium Kinetic Energy Rotational Motion. Angular Displacement Angular Velocity Angular Acceleration Constant angular acceleration equations. Moment of Inertia Angular Momentum Torque
[DOC File]Rotational Motion
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Force is proportional to linear acceleration: F = ma . Torque is proportional to angular acceleration: ( = I( . Inertia (m or I) is the proportionality constant. Translational inertia ( m ) measures an object’s resistance to changing its linear velocity. Rotational inertia ( I ) measures an …
[DOC File]Rotational Motion - University of Michigan
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Linear Motion Rotational Motion Displacement Angular Displacement Velocity Angular Velocity Acceleration Angular Acceleration Constant Acceleration Equations Constant Angular Acceleration Equations Mass m Moment of Inertia I Momentum Angular Momentum Force Torque Power Power Newton’s 2nd Law Newton’s 2nd Law 8-3 Rolling Motion. Rolling ...
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