This formula involves both the spring constant and mass.
What is the formula for the period of a spring?
This formula involves both the length of the pendulum and gravity.
What is the formula for the period of a pendulum?
The general shape of a simple harmonic motion graph.
What is a sinusoidal/wave-like shape?
The motion exhibited by a swinging pendulum or an oscillating spring.
What is simple harmonic motion?
This formula involves both the spring constant and distance stretched.
What is the restoring force formula?
The rate at which the period increases as length increases.
What is the square root of the length?
In a position Vs time graph, when the displacement is zero.
What is the equilibrium point?
The amount of oscillations in a second.
The name of the back and forth motion of an object in simple harmonic motion.
What is oscillation?
The rate at which the period increases as the mass increases.
What is at the square root of the mass?
The angle at which the formula for the period of a pendulum starts becoming inaccurate.
What is 20 degrees?
In a velocity Vs time graph, when the velocity zero.
What are the extremes?
The relationship between period and frequency.
What is reciprocal?
The maximum displacement that the object makes from the equilibrium point.
What is the amplitude?
This variable determines how stiff a spring is.
What is the spring constant?
The factor that is considered constant in the formula for the period.
What is the acceleration due to gravity?
In an acceleration Vs time graph, where the acceleration is at its maximum.
The unit for frequency.
What is hertz?
The force that brings a mass back to the equilibrium position.
What is the restoring force?
The relationship between the restoring force and the distance stretched.
What is a linear relationship?
The restoring force for pendulums.
What is the force of gravity?
The way friction affects the graph.
What is it increases the period and decreases the amplitude?
The unit for period.
What are seconds?
Where is the restoring force always points to.
What is the equilibrium point?