Math Problem Statement

Using the same simulation, perform 3 trials in which the radius is held constant (you choose the distance) and the amount of mass hanging from the string is varied (this hanging mass determines the amount of centripetal force acting on the stopper). Again, collect data for 10 revolutions before solving for the period for one revolution (T). Come up with number that make sense

Using the same simulation, perform 3 trials in which the radius is held constant (you choose the distance) and the amount of mass hanging from the string is varied (this hanging mass determines the amount of centripetal force acting on the stopper). Again, collect data for 10 revolutions before solving for the period for one revolution (T).

Solution

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Math Problem Analysis

Mathematical Concepts

Centripetal Force
Rotational Motion
Period of Revolution

Formulas

Centripetal Force: F = m * v^2 / r
Period of Revolution: T = Time for 1 revolution
Instantaneous Speed: v = (2 * π * r) / T

Theorems

Newton's Second Law
Uniform Circular Motion

Suitable Grade Level

Grades 9-12

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