Calculating Total Energy and Speed of a Ball on a Thread

Baumeister41
Messages
3
Reaction score
0
I need with a problem...A 0.10 kilogram solid rubber ball is attached to the end of an 0.0 meter length of light thread. The ball is swung in a vertical circle. point P, the lowest point of the circle, is 0.20 meter above the floor. The speed of the ball at the top of the circle is 6.0 meters per second, and the total energy is kept constant.
a)Determine the total energy of the ball, using the floor as the zero point for gravitational potential energy.

b)Determine the speed of the ball at point P, the lowest point of the circle

c)Determine the tension of the thread at...
i. the top of the circle
ii. the bottom of the circle

The ball only reaches the top of the circle once before the thread breaks when the bal is at the lowest point of the circle.
d)Determine the horizontal distance that the ball travels before hitting the floor



I'm not sure where to begin.


If anyone can help me it would be great!
 
Physics news on Phys.org
The length of the thread is 0.0 m?

You must show some work in the Homework forums. Can you think of anything useful in approaching this problem (relevant equations, etc)?
 
Last edited:
sry.im new to all of this stuff. the length of thread is 0.80 meters. well for part A i was Thinking PE=m*g*h because it said Potential energy. I get . Part B i think you do .5*m*v^2 = mgh and solve for the velocity. The for C the tension at the top is 0 or (m*g), not to sure on that one. D i can figure out using a kinematic equation
 
For a), you do need to consider the gravitational potential energy. But the ball is moving, so you need to consider the kinetic energy as well to get the total energy.

For b), since the energy remains constant, the energy at the top of the circle must equal the energy at the bottom of the circle. Since the ball is now closer to the floor, the relation between the potential and kinetic energies change. So just write out the terms for each.

For c), use the idea of a centripetal force with Newton's second law.

For d), yes, you can use kinematics to find the distance.
 
thank you very much. that was very helpful
 

Thread 'Modeling a graph that shows age in relation to depth of an ice sample'

To solve this, I first used the units to work out that a= m* a/m, i.e. t=z/λ. This would allow you to determine the time duration within an interval section by section and then add this to the previous ones to obtain the age of the respective layer. However, this would require a constant thickness per year for each interval. However, since this is most likely not the case, my next consideration was that the age must be the integral of a 1/λ(z) function, which I cannot model.
View full post »

Similar threads

What would the *Energy equation be for this problem?
Replies
15
Views
2K
Swinging Ball at Top of Circle: Forces & Energies
Replies
16
Views
2K
Centripetal Force Homework: Total Energy, Speed, Tension & Distance
Replies
2
Views
2K
Ball rotated on a string vector diagram
Replies
25
Views
4K
Solving for Speed and Acceleration of Ball at Point P
Replies
1
Views
2K
What is the total energy and velocity of a ball in a vertical circular path?
Replies
2
Views
2K
Tension in string when ball is at the top of a circle
Replies
7
Views
9K
Conservation of Energy- Circular Motion Problem
Replies
3
Views
6K
Is the expression still valid for large differences in radius?
Replies
2
Views
2K
How does the kinetic energy of a swinging ball change with respect to height?
Replies
21
Views
3K

Hot Threads

Recent Insights

Back
Top