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Thatonetim194
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1. A platform is executing simple harmonic motion in a vertical direction with an amplitude of 5 cm and a frequency of 10/pi vibrations per second. a block is placed on the platform at the lowest point of its path.
a) at what point will the block leave the platform?
b)how far will the block reach above the highest point that the platform reaches
2. Homework Equations
x=Acos(ωt-phi)
mg=-ma(where the block leaves the platform)
g-(ω^2)Acos(ωt)=0
ω=2pif
m(g-(ω^2)Acos(ωt))=0
3. The Attempt at a Solution for part a
given the frequency i found the angular frequency to be 20rad/s
knowing x=-Acos(ωt) because it starts out at the lowest point at -A and also no phase angle to the equation.
to find when the mass leaves the platform -ma=mg, and taking the derivative twice of this equation a=(ω^2)Acos(ωt)
and i need to satisfy the initial condition of the acceleration so i get m(g-(ω^2)Acos(ωt))=0
but how do find when this happens?
part b I was not able to get to yet
a) at what point will the block leave the platform?
b)how far will the block reach above the highest point that the platform reaches
2. Homework Equations
x=Acos(ωt-phi)
mg=-ma(where the block leaves the platform)
g-(ω^2)Acos(ωt)=0
ω=2pif
m(g-(ω^2)Acos(ωt))=0
3. The Attempt at a Solution for part a
given the frequency i found the angular frequency to be 20rad/s
knowing x=-Acos(ωt) because it starts out at the lowest point at -A and also no phase angle to the equation.
to find when the mass leaves the platform -ma=mg, and taking the derivative twice of this equation a=(ω^2)Acos(ωt)
and i need to satisfy the initial condition of the acceleration so i get m(g-(ω^2)Acos(ωt))=0
but how do find when this happens?
part b I was not able to get to yet
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