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Is angular momentum always parallel to angular acceleration?

momentum is product of moment of inertia and angular velocity. There is always a 90 degree phase difference between velocity and acceleration vector in circular motion therefore angular momentum and acceleration can never be parallel


What is the name of the mechanism that produces the greatest amount of torque?

An angular force would produce a large torque like angular momentum of a spinning wheel.


How to convert angular torque in to linear torquewith Example..?

Firstly could you be so kind to explain to me what "linear torque" is. I'm pretty confident that torque = force x radius at which that force is applied, thus the term linear torque cannot exist. Also torque is simply the angular version of force, I'm going to take a stab at this and assume that what you really want to know is how to convert torque to force. Since the equation defining torque is T=FR, where T is torque, F is force and R is the radius at which that force is applied, then the force (by simple algebraic rearranging) is simply T/R.


What does the parallel axis theorem states?

Angular acceleration is the rate of change of angular velocity over time. In SI units, it is measured in radians per second squared (Rad/s2), and is usually denoted by the Greek letter alpha (α).[1]


How do you calculate shaft power?

Shaft power P = (2(pi) * (angular Speed in rpm) * (Torque at shaft)/ 60 Torque of a solid shaft is given by (pi/16)* (Shear stress of material of shaft) * (Dia of shâft3).

Related Questions

How to calculate angular acceleration from torque?

To calculate angular acceleration from torque, use the formula: angular acceleration torque / moment of inertia. Torque is the force applied to an object to make it rotate, and moment of inertia is a measure of an object's resistance to changes in its rotation. By dividing the torque by the moment of inertia, you can determine the angular acceleration of the object.


What is the relation between torque and angular acceleration?

Torque is the rotational equivalent of force and is responsible for causing rotational motion. Angular acceleration is the rate at which an object's angular velocity changes. The relationship between torque and angular acceleration is defined by Newton's second law for rotation: torque is equal to the moment of inertia of an object multiplied by its angular acceleration.


How is torque related to angular acceleration in rotational motion according to the equation torque I alpha?

In rotational motion, torque is directly related to angular acceleration through the equation torque moment of inertia angular acceleration. This means that the amount of torque applied to an object will determine how quickly it accelerates in its rotation.


If a net torque is applied to an object that object will experience which of the following a constant angular speed angular acceleration or an increasing moment of inertia?

If a net torque is applied to an object, it will experience angular acceleration. This is because torque causes rotation and leads to a change in angular velocity. The object's angular speed will increase or decrease depending on the direction of the net torque applied.


What is the torque acceleration equation used to calculate the rate of change of angular velocity in a rotating system?

The torque acceleration equation is used to calculate the rate of change of angular velocity in a rotating system. It is given by the formula: Torque Moment of Inertia x Angular Acceleration. This equation relates the torque applied to an object to its moment of inertia and the resulting angular acceleration.


How can one determine the angular acceleration of an object by using the torque applied to it?

To determine the angular acceleration of an object using the torque applied to it, you can use the formula: angular acceleration torque / moment of inertia. Torque is the rotational force applied to an object, and moment of inertia is a measure of how an object's mass is distributed around its axis of rotation. By dividing the torque by the moment of inertia, you can calculate the object's angular acceleration.


Is Angular accelration is produced by torque?

no angular acceleration is not producd by torque is a factor of torque T= anguar aceleration X momentum I say yes, because torque is another word for a couple that is equivalent to two equal parallel forces in opposite directions but separated by a distance. Torque acting on an inertia produces angular acceleration exactly as a force acting on a mass produces linear acceleration. Actually the answer above does not make much sense to me. Angular momentum is the angular rotation speed times the inertia. Finally inertia is the sum of all the bits of mass each multiplied by the square of distance from the inertial centre.


How do you find out the direction of angular accelaration?

The direction of angular acceleration comes from whether the angular speed of the object is clockwise or counterclockwise and whether it is speeding up or slowing down.The direction of the angular acceleration will be positive if the angular velocity is counterclockwise and the object's rotation is speeding up or if the angular velocity is clockwise and the object's rotation is slowing downThe direction of the angular acceleration will be negative if the angular velocity is clockwise and the object's rotation is speeding up or if the angular velocity is counterclockwise and the object's rotation is slowing downThe angular acceleration will not have a direction if the object's angular velocity is constant


What is the relationship between torque and velocity?

Torque is the rotational force applied to an object, while velocity is the speed at which the object is moving. In rotational motion, torque affects the angular acceleration of an object, which in turn can impact its angular velocity. The relationship between torque and velocity is described by the equation: Torque = Moment of inertia x Angular acceleration.


Is angular acceleration and torque per unit moment of inertia are equal?

In magnitude, yes. But that's a strange way of expressing it, since the angular acceleration is the product/result of the torque. Your statement seems in a way to confuse the dependent and independent variables. But the numbers are sound. L = Iα so L/I =α sure enough. It's the rotational analog of F = MA. The analogous statement would be to say that linear acceleration is equal to force per unit of mass. Relatively harmless, I guess.


What is the relationship between torque and angular acceleration in rotational motion?

The relationship between torque and angular acceleration in rotational motion is described by Newton's second law for rotation, which states that the torque acting on an object is equal to the moment of inertia of the object multiplied by its angular acceleration. In simpler terms, the torque applied to an object determines how quickly it will start rotating or change its rotation speed.


What structure is involved in angular acceleration?

Angular acceleration is a measure of how quickly the angular velocity of an object is changing. It involves the object's moment of inertia and the net torque acting on it. When a torque is applied to an object with a certain moment of inertia, it causes the object to accelerate rotationally.