Solving a Physics Homework Problem: Work, Energy, and Conservation

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
2 replies · 2K views
neongoats
Messages
9
Reaction score
0

Homework Statement



A student holds a book at rest on the palm of her hand. She lifts the book straight up, bringing it to rest again at a higher point.
1. Is the net work done on the book positive, negative, or zero?
2. Is the change in the gravitational potential energy positive, negative, or zero?
3. Is the total mechanical energy conserved?

Homework Equations

The Attempt at a Solution


1. I feel like the net work is zero, because as she speeds the book up the work being done is positive, but the work is negative when she begins to slow back down again. I also feel like the answer could potentially be positive though, because the speed is not constant and the displacement is upward.
2. I feel like this is positive because the displacement of the book is upward
3. I feel like this is true but I don't fully understand why that is.
 
Physics news on Phys.org
neongoats said:

Homework Statement



A student holds a book at rest on the palm of her hand. She lifts the book straight up, bringing it to rest again at a higher point.
1. Is the net work done on the book positive, negative, or zero?
2. Is the change in the gravitational potential energy positive, negative, or zero?
3. Is the total mechanical energy conserved?

Homework Equations

The Attempt at a Solution


1. I feel like the net work is zero, because as she speeds the book up the work being done is positive, but the work is negative when she begins to slow back down again. I also feel like the answer could potentially be positive though, because the speed is not constant and the displacement is upward.
2. I feel like this is positive because the displacement of the book is upward
3. I feel like this is true but I don't fully understand why that is.

1) is correct, the net work is zero, according to the work-energy theorem.
2) is correct, the gravitational potential energy increases.
3) The mechanical energy is equal to KE+PE. Is it conserved?
The force you exert while moving the book is not a conservative force. It changes the mechanical energy.
 
ehild said:
1) is correct, the net work is zero, according to the work-energy theorem.
2) is correct, the gravitational potential energy increases.
3) The mechanical energy is equal to KE+PE. Is it conserved?
The force you exert while moving the book is not a conservative force. It changes the mechanical energy.
Ohhh that makes sense, thank you so much!