Total work done if it's zero?

In summary: The Work-Energy theorem tells us that if there is no work done on an object then its kinetic energy can't change.
  • #1
jimmyboykun
39
0

Homework Statement


An object is moving along some path. the total work done on the object during this process is zero.


Homework Equations


no equation


The Attempt at a Solution


A the speed of an object has decreased.
B the speed of the object may have changed.
C the object must be moving in a circle
D the velocity of the object must not have changed
E the speed of the object has not changed
F the velocity of the object may have changed

I chose answer D and E. From what I understand so far work is zero when the Force is perpendicular to the displacement.

would speed and velocity changed, when the work of an object is zero?
 
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  • #2
jimmyboykun said:

Homework Statement


An object is moving along some path. the total work done on the object during this process is zero.


Homework Equations


no equation


The Attempt at a Solution


A the speed of an object has decreased.
B the speed of the object may have changed.
C the object must be moving in a circle
D the velocity of the object must not have changed
E the speed of the object has not changed
F the velocity of the object may have changed

I chose answer D and E. From what I understand so far work is zero when the Force is perpendicular to the displacement.

would speed and velocity changed, when the work of an object is zero?

If you do no work on an object then it's kinetic energy can't change. Why do you think the velocity vector can't change if the force is perpendicular to the displacement?
 
  • #3
Note that "kinetic energy" depends upon speed, not velocity. Now, what is the difference between "speed" and "velocity"?
 
  • #4
It there is no work being done on the object, the force acting on the object (if it exists) must be perpendicular to the velocity vector. With the force is perpendicular to the velocity vector, the direction of the velocity vector must be changing, but, with no work being done, the magnitude of the velocity (speed) must be constant.

Chet
 
  • #5
HallsofIvy said:
Note that "kinetic energy" depends upon speed, not velocity. Now, what is the difference between "speed" and "velocity"?

the difference between speed and velocity is that "velocity" is speed with direction, and "speed" is just direction.
 
  • #6
jimmyboykun said:
From what I understand so far work is zero when the Force is perpendicular to the displacement.
It's certainly true that if the force is always perpendicular to the displacement then the work done will be zero. But this problem only states that the total work done on the particle is zero.

would speed and velocity changed, when the work of an object is zero?
What does the Work-Energy theorem tell you?
 
Last edited:

1. What is total work done if it's zero?

Total work done refers to the amount of energy transferred to or from an object by a force acting on it. When the total work done is zero, it means that there is no net transfer of energy between the object and its surroundings.

2. Can total work done be zero even if a force is applied?

Yes, total work done can be zero even if a force is applied. This can happen when the force applied is perpendicular to the displacement of the object, meaning that the force is not doing any work on the object.

3. What does it mean if the total work done is zero?

If the total work done is zero, it means that the net energy of the system remains unchanged. In other words, the initial and final states of the system have the same amount of energy.

4. Can the total work done ever be negative?

Yes, the total work done can be negative. This happens when the force applied on the object is in the opposite direction of its displacement. In this case, the force is doing work against the motion of the object, resulting in a decrease in the object's energy.

5. Why is it important to calculate the total work done in a system?

Calculating the total work done in a system allows us to understand the energy transfer and changes within the system. This information is crucial in understanding the behavior and dynamics of the system, and can help in predicting and controlling its future state.

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