At which angle work done is maximum?
Table of Contents
- 1 At which angle work done is maximum?
- 2 Is it true that work done on the system is at maximum if the force is perpendicular with the displacement?
- 3 What happens to the work done when the displacement of a body is at right angles?
- 4 What should be the angle between force and displacement to get the maximum work?
- 5 What is the work done by the force on the displacement?
- 6 When the angle between the force and displacement is zero?
At which angle work done is maximum?
zero degrees
Hence, work done is maximum when θ is at zero degrees.
Is it true that work done on the system is at maximum if the force is perpendicular with the displacement?
The maximum work is done by a given force when it is along the direction of the displacement (cosθ=±1 cos θ = ± 1 ), and zero work is done when the force is perpendicular to the displacement (cosθ=0 cos θ = 0 ).
What is the angle between the force and displacement if the work done is zero?
If the work done is zero, then the angle between the force and displacement is 900. Work is a scalar quantity, i.e., it only has magnitude and no direction. The value of cos 90° is 0, and as we know when anything is multiplied with 0 the product is 0.
What should be the angle between force and displacement if work done by the force is negative?
For negative work, the angle between the force and displacement should be 180°.
What happens to the work done when the displacement of a body is at right angles?
a) When the displacement of a body is at a right angle to the the direction of force acting on it, then the work-done will be zero.
What should be the angle between force and displacement to get the maximum work?
= 0°
The angle between force and displacement should be θ = 90° for minimum work. The angle between force and displacement should be θ = 0° for maximum work.
When angle between force and displacement is 90 degree then work done will be?
theta is angle between force and displacement. Since cos 90 = 0, therefore work done is zero. In circular motion, angle between centripetal force (along radius)and linear displacement ( along tangent) is 90 degrees , work done is zero.
When the work done by a force is maximum?
This means that when the force is applied on a body and the displacement of the body takes place in the direction of the force applied then work done is maximum. So when theta=0°, work done is maximum.
What is the work done by the force on the displacement?
The work done by the force is maximum when the force and displacement has the same direction , since the angle is zero and cos 0 is one . And the work is zero if they are normal to each other . The work done is maximum if the angle between the force F and displacement d is zero degrees. The Work formula of Work = Fd cosθ supports this.
When the angle between the force and displacement is zero?
When the angle between the force and displacement = zero , The work done is maximum when the direction of force is the same as the direction of displacement , such as a person pulling an object through a certain distance .
What is the maximum work done when the force is zero?
The maximum work is done when the force, F, has an angle of 0 or 180 degrees with the displacement. This means that for any angle between 90+ and 180 degrees, the work done is negative, which means that the force is taking energy away from the moving object.
What is the maximum work done when f is parallel D?
This means that evaluating the geometry to determine the component of F that is parallel to d is necessary, rather than blindly applying this equation. The maximum work is done when the force, F, has an angle of 0 or 180 degrees with the displacement. This me