Using Newton’s Second Law of Motion, explain the net force exerted upon an object thrown upward when it is at its trajectory’s peak.

College Physics
11th Edition
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Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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Using Newton’s Second Law of Motion, explain the net force exerted upon an object thrown upward when it is at its trajectory’s peak.

An object thrown downward is affected by two forces: gravitational force and air resistance. However, since gravitational
A force is proportional to velocity and velocity is zero at the trajectory's peak, gravity cancels out. This leaves us with solely air
resistance.
An object thrown upward is affected by two forces: gravitational force and air resistance. However, since air resistance is
(B proportional to velocity and velocity is zero at the trajectory's peak, air resistance cancels out. This leaves us with solely
gravitational force.
An object thrown upward is affected by two forces: gravitational force and air resistance. However, since air resistance is
proportional to velocity and velocity is at maximum at the trajectory's peak, air resistance cancels out. This leaves us with
solely gravitational force.
Transcribed Image Text:An object thrown downward is affected by two forces: gravitational force and air resistance. However, since gravitational A force is proportional to velocity and velocity is zero at the trajectory's peak, gravity cancels out. This leaves us with solely air resistance. An object thrown upward is affected by two forces: gravitational force and air resistance. However, since air resistance is (B proportional to velocity and velocity is zero at the trajectory's peak, air resistance cancels out. This leaves us with solely gravitational force. An object thrown upward is affected by two forces: gravitational force and air resistance. However, since air resistance is proportional to velocity and velocity is at maximum at the trajectory's peak, air resistance cancels out. This leaves us with solely gravitational force.
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