A particle leaves the origin with an initial velocity of ( 2.40 m/s ) x^ , and moves with constant acceleration of ( − 1.90 m/s 2 ) x ^ + ( 3.20 m/s 2 ) y ^ . (a) How far does the particle move in the x direction before turning around? (b) What is the particle’s velocity at this time? (c) Plot the particle’s position at t= 0.500 s , 1.00 s, 1.50 s, and 2.00 s. Use these results to sketch position versus time for the particle.
A particle leaves the origin with an initial velocity of ( 2.40 m/s ) x^ , and moves with constant acceleration of ( − 1.90 m/s 2 ) x ^ + ( 3.20 m/s 2 ) y ^ . (a) How far does the particle move in the x direction before turning around? (b) What is the particle’s velocity at this time? (c) Plot the particle’s position at t= 0.500 s , 1.00 s, 1.50 s, and 2.00 s. Use these results to sketch position versus time for the particle.
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter2: Motion In One Dimension
Section: Chapter Questions
Problem 11P: A particle moves along the x axis according to the equation x = 2.00 + 3.00t 1.00t2, where x is in...
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A particle leaves the origin with an initial velocity of ( 2.40 m/s ) x^ , and moves with constant acceleration of ( − 1.90 m/s 2 ) x ^ + ( 3.20 m/s 2 ) y ^ . (a) How far does the particle move in the x direction before turning around? (b) What is the particle’s velocity at this time? (c) Plot the particle’s position at t= 0.500 s , 1.00 s, 1.50 s, and 2.00 s. Use these results to sketch position versus time for the particle.
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