To find the speed of the mass at a half-amplitude position in simple harmonic motion, we can use the following formula for the speed of an object undergoing simple harmonic motion:
v = ω * A
where:
v = speed of the mass at the given position
ω (omega) = angular frequency of the motion
A = amplitude of the motion
The angular frequency (ω) of the motion can be calculated using the formula:
ω = √(k / m)
where:
k = spring constant
m = mass
Given:
m = 0.25 kg
k = 12 N/m
A = 15 cm = 0.15 m
Let's calculate the angular frequency first:
ω = √(12 N/m / 0.25 kg)
ω = √(48 N/kg)
ω = 6 rad/s
Now, we can calculate the speed at a half-amplitude position:
v = ω * A
v = 6 rad/s * 0.15 m
v = 0.9 m/s
So, the speed of the mass at a half-amplitude position is 0.9 meters per second (m/s).