Help With a Frictionless Ramp and Physics Concepts

[butz3]

i'm not sure how to begin this problem. "a cart that is moving at 8:00m/s heads up a frictionless ramp inclined 10.0 degrees from the horizontal. how far up the ramp should it go?" also i want to know if I'm on the right track with this question "give an example of each of the following objects or systems. a) and object with a negative potential enery. " i said an object at rest. b) " an object with zero kinetic energy" i said a ball stopped in a catchers mitt. c) a system that does mechanical work and loses energy. i said an open , non isolated system. and d) themal energy being produced by a system. i said a can of pop on a beach, fast moving molecules. any help would be great as I'm trying to teach my self. its kind of hard thanks

 

[ek]

1/2mv^2 = mgsinxd

1/2v^2 = gsinxd

d = v^2/2gsinx

That is one way you can solve it. There is probably more than one way.

I might have screwed up though, who knows. In fact I probably did. I'm going to try and do it another way.

Here's another way, easier I guess:

a = gsinx (it's going up at a ten degree angle, so the component of gravity is gsinx)

v^2 = 2ad

d = v^2/2gsinx

Same thing. Guess I was right after initially screwing up sines and cosines. It happens to the best of us.

 

[wais]

For the first problem, it is important to understand the basic physics concepts involved. The key concept here is conservation of energy. In a frictionless system, the total energy (kinetic + potential) remains constant. Therefore, you can use the equation: E = mgh + 1/2mv^2, where E is the total energy, m is the mass of the cart, g is the acceleration due to gravity, h is the height of the ramp, and v is the velocity of the cart. Since the cart starts with a velocity of 8m/s and reaches a height of h, we can set the initial energy equal to the final energy and solve for h. So, 1/2mv^2 = mgh, which simplifies to h = v^2/2g. Plugging in the values, we get h = (8m/s)^2/(2*9.8m/s^2) = 3.27m. Therefore, the cart should go up the ramp for a distance of 3.27 meters.

For the second part, your answers seem to be on the right track. An object at rest has a negative potential energy because it has the potential to move downwards due to gravity. A ball stopped in a catcher's mitt has zero kinetic energy because it is not in motion. An open, non-isolated system can do mechanical work and lose energy because it can exchange energy with its surroundings. And a can of pop on a beach with fast-moving molecules is a good example of thermal energy being produced by a system. Keep up the good work in teaching yourself and continue to practice solving problems to improve your understanding of physics concepts.