How Do You Determine the Amplitude of a Spring-Mass System?

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To determine the amplitude of a spring-mass system when a 5kg block is hung, first calculate the spring constant (k) using the initial 4kg block, resulting in k = 49 N/m. The new equilibrium position can be found by applying the conservation of energy principle, equating the gravitational potential energy of the falling mass to the elastic potential energy stored in the spring. The mass will fall a distance x before reversing direction, which can be calculated by solving the energy equation: m*g*x = 0.5*k*x^2. The amplitude of oscillation is then twice the distance from the old equilibrium point to the new one. Understanding these principles allows for accurate determination of the amplitude in spring-mass systems.
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a block of mass 4kg is hung from a spring, causing it to stretch 8cm at equilibrium. the 4kg block is then replaced by a 5kg block. the accleration of gravity is 9.8m/s^2. how far will the 5kg block fall before its direction is reversed?


i don't know if this helps but i found K for the first block

F=-kx
4*9.8=.8k
k=49

i don't know anything else. HELP PLEASE:confused:
 
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8 cm is .08 m, not .8 m.
Just find the distance to the from the old equilibrium point to the new one (the amplitude of oscillation) and multiply by two.
 
?

how do you find the amplitude?
 
Use the conservation of energy principal:
In the beggining of the motion, the spring is unstretched, so it has no energy whatsoever, but the mass has potential energy m*g*x, where x is the distance it will fall before coming to a halt.
In the end of the motion, the mass stops falling and is momentarily at rest, so it has neither potential nor kinetic energy. The spring, however, is now stretched by distance x from equilibrium, so the energy it has equals 0.5k*x^2. The energy at the beginning must be equal to the energy at the end, so you can write an equation and solve it to find x.
 

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