with the horizontal. 2. What is the maximum height reached by the object? 3. What is the total flight time (between launch and touching the ground) of the object? 4. What is the horizontal range (maximum x above ground) of the object? 5. What is the magnitude of the velocity of the object just before it hits the ground? 6. The position of an electron is given by r 5ti-4tj +3k (where t is in seconds and the coefficients have the proper units for r to be in meters). (a) What is v(t) for the electron? (b) In unit-vector notation, what is v at t = 2.0 s? (c) What are the magnitude and direction of v just then? 7. A particle moves so that its position as a function of time in Sl units is r = 4ti + tj + 2k. Write expressions for (a) its velocity and (b) its acceleration as functions of time. 8. You throw a ball with a speed of 25.0 m/s at an angle of 40 above the horizontal directly toward a wall. The wall is 22.0m from the release point of the ball. (a) How long does the ball take to reach the wall? (b) How far above the release point does the ball hit the wall? (c) What are the horizontal and vertical components of its velocity as it hits the wall?

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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1. The observation deck of tall skyscraper is 500 ft above the street. Determine the
time required for a penny to free fall from the deck to the street below.
An object is launched at a velocity of 15 m/s in a direction making an angle of 30° upward
with the horizontal.
2. What is the maximum height reached by the object?
3. What is the total flight time (between launch and touching the ground) of the
object?
4. What is the horizontal range (maximum x above ground) of the object?
5. What is the magnitude of the velocity of the object just before it hits the ground?
6. The position of an electron is given byr 5ti-4tj +3k (where t is in
seconds and the coefficients have the proper units for r to be in meters). (a)
What is v(t) for the electron? (b) In unit-vector notation, what is v at t = 2.0 s?
(c) What are the magnitude and direction of v just then?
7. A particle moves so that its position as a function of time in Sl units is
r = 4ti + tj + 2k. Write expressions for (a) its velocity and (b) its acceleration
as functions of time.
8. You throw a ball with a speed of 25.0 m/s at an angle of 40° above the horizontal
directly toward a wall. The wall is 22.0m from the release point of the ball.
(a) How long does the ball take to reach the wall?
(b) How far above the release point does the ball hit the wall?
(c) What are the horizontal and vertical components of its velocity as it hits the
wall?
Transcribed Image Text:Show STEP BY STEP solution and box your final answer. Non- compliance with the direction will result to a wrong answer. 1. The observation deck of tall skyscraper is 500 ft above the street. Determine the time required for a penny to free fall from the deck to the street below. An object is launched at a velocity of 15 m/s in a direction making an angle of 30° upward with the horizontal. 2. What is the maximum height reached by the object? 3. What is the total flight time (between launch and touching the ground) of the object? 4. What is the horizontal range (maximum x above ground) of the object? 5. What is the magnitude of the velocity of the object just before it hits the ground? 6. The position of an electron is given byr 5ti-4tj +3k (where t is in seconds and the coefficients have the proper units for r to be in meters). (a) What is v(t) for the electron? (b) In unit-vector notation, what is v at t = 2.0 s? (c) What are the magnitude and direction of v just then? 7. A particle moves so that its position as a function of time in Sl units is r = 4ti + tj + 2k. Write expressions for (a) its velocity and (b) its acceleration as functions of time. 8. You throw a ball with a speed of 25.0 m/s at an angle of 40° above the horizontal directly toward a wall. The wall is 22.0m from the release point of the ball. (a) How long does the ball take to reach the wall? (b) How far above the release point does the ball hit the wall? (c) What are the horizontal and vertical components of its velocity as it hits the wall?
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