Homework help: Harmonic Motion of a Spring and Block System

AI Thread Summary
A 0.1 kg block attached to a spring with a force constant of 17.2 N/m oscillates with a maximum speed of approximately 2.1 m/s at an amplitude of 16 cm. To find the speed when the block is 8 cm from the equilibrium position, the velocity equation requires a time value, which is currently unknown. The correct approach involves determining the time when the cosine of the angular frequency equals 1/2. The discussion emphasizes using angular frequency and the equations of motion for harmonic systems to solve for speed and acceleration. The calculations and methods presented are crucial for understanding harmonic motion in spring-block systems.
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Homework Statement



Part 1:

A 0.1 kg block attached to a spring of force constant 17.2 N/m oscillates with an amplitude of 16 cm. Find the the maximum speed of the block.

I solved this part using the equations for angular frequency and max velocity.

Part 2:

Find speed of the block when it is 8 cm from the equilibrium position. Answer in m/s.

Part 3:

Find acceleration in the same situation ^

Part 4:

Find the time it takes the block to move from amplitude 0cm, to amplitude 8 cm.

Homework Equations



ω = \sqrt{}k/m

Vm = Aω

V(t) = -AωSin(ωt)

a(t) = - Aω^2Cos(ωt)


The Attempt at a Solution



Part 1 i figured out:

ω = \sqrt{}17.2/0.1 = 13.1149 rads

Vm = (.16)(13.1149) = 2.09838 m/s


For part 2 i tried using the equation for velocity as a function of time. But I'm not sure how to solve the equation without the value for time. So far i have:

V(t) = -(0.08)(13.1149)Sin(13.1149(t))


Thank you everybody
 
Physics news on Phys.org
For part two, the displacement is half the amplitude so you are looking for a time t such that \cos(\omega t) = 1/2.
 

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