Tutorials in Introductory Physics
Tutorials in Introductory Physics
1st Edition
ISBN: 9780130970695
Author: Peter S. Shaffer, Lillian C. McDermott
Publisher: Addison Wesley
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Chapter 12.1, Problem 2dT
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can you please help me with this physics problem? i dont understand it. Thank you!
can you please help me with this physics problem?
I’m working on a loop-the-loop physics question involving rolling motion and would like help understanding the steps.
A billiard ball with radius r and mass m rolls without slipping down a track and into a vertical loop of radius R. It has just enough speed to barely make it over the top of the loop.
a) In class/problems before, we found that for an object that slides without friction into the loop (no rotation), the minimum starting height needed to just clear the top is
H=52R.H = \frac{5}{2}R.H=25R.
Now the object is a rolling billiard ball instead. If this ball rolls without slipping and just manages to clear the top, does it need to start from a different height than the sliding object? If so, should that height be larger or smaller? Please explain conceptually, using energy ideas, without doing detailed calculations yet.
b) When the ball is just barely making it over the top of the loop, what are:(i) the normal force acting on the ball at the top of the loop, and(ii) the ball’s...
Chapter 12 Solutions
Tutorials in Introductory Physics
Chapter 12.1, Problem 1aT Chapter 12.1, Problem 1cT Chapter 12.1, Problem 2aT Chapter 12.1, Problem 2bT Chapter 12.1, Problem 2cT Chapter 12.1, Problem 2dT Chapter 12.1, Problem 3aT Chapter 12.1, Problem 3bT Chapter 12.1, Problem 3cT Chapter 12.1, Problem 3dT
Chapter 12.1, Problem 3eT Chapter 12.1, Problem 4aT Chapter 12.1, Problem 4bT Chapter 12.1, Problem 4cT Chapter 12.2, Problem 1aT Chapter 12.2, Problem 1bT Chapter 12.2, Problem 1cT Chapter 12.2, Problem 1dT Chapter 12.2, Problem 2aT Chapter 12.2, Problem 2bT Chapter 12.2, Problem 3aT Chapter 12.2, Problem 4aT Chapter 12.2, Problem 4bT Chapter 12.2, Problem 4cT
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- A grinding wheel is already spinning clockwise at 190 RPM, and then a motor increases its speed with a constant angular acceleration of 5.00 rad/s2 until the wheel reaches 475 RPM. • Since the wheel is turning clockwise and its speed is increasing, what would be the direction of the angular acceleration (clockwise or counterclockwise)? And with whatever sign convention you choose, what sign would you give that acceleration? • As the wheel speeds up from 190 RPM to 475 RPM, how can I figure out the total number of revolutions it completes? I’d appreciate seeing the setup and the angular-kinematics steps involved. • I’m also trying to find out how long the speed-up takes under that constant angular acceleration. Could you show how to compute the time based on the information above? • Once the wheel reaches the 475-RPM speed, its diameter is 0.28 m. Using that, what would be the tangential (linear) speed at the outer edge?arrow_forward1. Find the average focal length, and the % Difference between the average and the theoreticalfocal length of 100 mm.2. Why could you not obtain a focused image for some object distances?3. What would the object distance need to be in order to obtain a magnification of -1?4. For a converging lens of focal length f, where would you place the object to obtain an imageas far from the lens as possible? 5. Purpose: State the purpose of the experiment. Explain exactly what the experimentinvestigates and what you are trying to determine. Be as explicit and thorough as possible.Explain the theory behind the experiment. Explain exactly what you measured and how itwas used to fulfill the purpose of the lab.6. Conclusion: Discuss the percent error, and the uncertainties involved in themeasurements and possible errors which made the experimental results different from thetheoretical results. Suggest possible improvements in the experiment which could reducethese uncertainties.arrow_forward2. Find the slope of the line of the graph below. Show your work clearly! Distance (m) 100 80 60 40 20 20 2 6 8 Time (s)arrow_forward
- can you please help me with this physics homework question?arrow_forwardPls help me asap on all asked questions.arrow_forwardFor this frame, I attempted to calculate the forces acting in the real system. I found that A_y= 13.9 K and B_y = 21.1 K; while A_x = -6 K. Can you please tell me if my calculations are correct and walk me through your solutions.arrow_forward
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