Demonstration 2: On the axes to the right, sketch your predictions for the x-component of the velocity as a function of time and the y-component of the velocity as a function of time. Based on your graph for v, vs. t, write an equation for vx as a function of time. Vx = Based on your graph for v, vs. t, write an equation for vy as a function of time. Vy (a) (b) x component of velocity O y component of velocity + O y Question 5: In the space below, draw an arrow that represents the direction of the acceleration of the ball (a) just after it is released, (b) when it reaches the highest point in its trajectory, (c) while it is on its way down. If the acceleration is zero, write ZERO above the ball. (c) time O time Question 6: In the space below, draw the free-body (force) diagram for the ball (a) just after it is released, (b) when it reaches the highest point in its trajectory, (c) while it is on its way down. If there are no forces acting on the ball, write NONE above the ball. If the net force on the ball is zero, write ZERO above the ball.

Demonstration 2: On the axes to the right, sketch your predictions for the x-component of the velocity as a function of time and the y-component of the velocity as a function of time. Based on your graph for v, vs. t, write an equation for vx as a function of time. Vx = Based on your graph for v, vs. t, write an equation for vy as a function of time. Vy (a) (b) x component of velocity O y component of velocity + O y Question 5: In the space below, draw an arrow that represents the direction of the acceleration of the ball (a) just after it is released, (b) when it reaches the highest point in its trajectory, (c) while it is on its way down. If the acceleration is zero, write ZERO above the ball. (c) time O time Question 6: In the space below, draw the free-body (force) diagram for the ball (a) just after it is released, (b) when it reaches the highest point in its trajectory, (c) while it is on its way down. If there are no forces acting on the ball, write NONE above the ball. If the net force on the ball is zero, write ZERO above the ball.

Name: INTERACTIVE LECTURE DEMONSTRATIONPREDICTION SHEET-PROJECTILE MOTIONDi
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Description: INTERACTIVE LECTURE DEMONSTRATIONPREDICTION SHEET-PROJECTILE MOTIONDirections: This sheet will be collected. Write your name at the top to record your presencewriteand participation in these demonstrations. Follow your instructor's directions. You m

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter4: Motion In Two And Three Dimensions

Section: Chapter Questions

Problem 99CP: World’s Longest Par 3. The tee of the world’s longest par 3 sits atop South Africa’s Hanglip...

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