A particle of mass 1.29 kg is subject to a force that is always pointed towards the North but whose magnitude changes quadratically with time. Let the y-axis point towards the North. The magnitude of the force is given as F= 77, and has units of newtons Av=3.97 Part (a) Determine the change in the velocity Av, in meters per second, of the particle between t= 0 and t = 1.3 s. ✓ Correct! Part (b) Determine the change in y-coordinate, in meters, of the particle Ay between t= 0 and t = 1.3 if the initial velocity = 13.1 m/s and directed the same direction as the force
A particle of mass 1.29 kg is subject to a force that is always pointed towards the North but whose magnitude changes quadratically with time. Let the y-axis point towards the North. The magnitude of the force is given as F= 77, and has units of newtons Av=3.97 Part (a) Determine the change in the velocity Av, in meters per second, of the particle between t= 0 and t = 1.3 s. ✓ Correct! Part (b) Determine the change in y-coordinate, in meters, of the particle Ay between t= 0 and t = 1.3 if the initial velocity = 13.1 m/s and directed the same direction as the force
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
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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Please answer part b and circle answer
Transcribed Image Text:A particle of mass 1.29 kg is subject to a force that is always pointed towards the North but whose magnitude changes quadratically with
time. Let the y-axis point towards the North. The magnitude of the force is given as F = 77, and has units of newtons
Part (a) Determine the change in the velocity Av, in meters per second, of the particle between t = 0 and t = 1.3 s.
✓ Correct!
Δν = 3.97
Part (b) Determine the change in y-coordinate, in meters, of the particle Ay between t= 0 and t = 1.3 if the initial velocity = 13.1 m/s and directed
North, in the same direction as the force.
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