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Lecture 9: Problem Solving Review For Test 1. How to identify type of problem? If something is going in a circle: circular motion If the problem mentions.

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Presentation on theme: "Lecture 9: Problem Solving Review For Test 1. How to identify type of problem? If something is going in a circle: circular motion If the problem mentions."— Presentation transcript:

1 Lecture 9: Problem Solving Review For Test 1

2 How to identify type of problem? If something is going in a circle: circular motion If the problem mentions distances, velocities, acceleration, time, but no forces: kinematics If the problem mentions forces and acceleration, but no positions, distances and times: forces Some problems may combine kinematics and forces.

3 Example 1 Romeo is throwing pebbles up to Juliet’s window in a building. He wants the pebbles to hit the window with only a horizontal component of velocity. He manages this by throwing a pebble with speed v o, at an angle θ with respect to the horizontal. Derive expressions for the horizontal distance D he is from the building, and for the height of the window above launch point (i.e. Romeo’s hand).

4 Summary of Litany for Kinematics Problems 1. Draw sketch of the physical situation. 2. Draw and label vector quantities (e.g., initial velocity and acceleration) 3. Draw coordinate system (including origin) 4. Indicate and label initial and final positions along the axes. 5. Start with an OSE 6. Replace generic component quantities with information given in the problem. 7. Solve for the desired quantity algebraically.

5 Example 2 Two workers are moving a heavy crate of mass M up a rough inclined ramp that makes an angle θ with the horizontal. One worker applies a horizontal pushing force of constant magnitude P to the crate. The other worker pulls with constant force at the end of a rope that is tied to the crate and runs over a massless frictionless pulley. The crate moves up the ramp at constant speed. The coefficient of kinetic friction between crate and ramp is µ. In the figure, superimpose a fully labeled free-body diagram for the crate. Include all information necessary to solve part b) below. Derive an expression for the magnitude of the pulling force T, in terms of relevant system parameters.

6 Summary of Litany for Force Problems

7 Example 3 In an amusement park ride, a man of mass M enters a cylindrical room of radius R and stands upright against the rough wall. The room is then rotated around a vertical axis in the center of the room. When the wall of the room reaches a certain speed V, the floor is lowered. Find the minimum coefficient of static friction that prevents the man from falling.

8 Things to remember for circular motion: Centripetal acceleration Directed towards center of the circle Caused by forces Set up force problem Choose one axis towards center of circle

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