kachexy
contestada

The maximum speed of a 4.1 kg mass attached to spring is 0.78 m/s and the maximum force exerted on the mass is 13 N.
(a) what is the amplitude of motion for this mass?
(b) what is the force constant of the spring?
(c) What is the frequency of this system?

Respuesta :

rokettojanpu

Start with the conservation of energy. The spring potential energy and the mass' kinetic energy will fluctuate over time, but their sum will stay constant. The maximum spring potential energy equals the maximum kinetic energy.

0.5mv² = 0.5kx²

m is the mass, v is the maximum velocity, k is the spring constant, and x is the maximum displacement along the spring.

Given values:

m = 4.1kg

v = 0.78m/s

Calculate the maximum kinetic energy.

Max KE = 0.5mv² = 1.247J

Set this equal to the maximum spring potential energy.

Max spring PE = 0.5kx² = 1.247J

x² = 2.494/k

The spring force is F = kx

Max F = kx = 13N

x = 13/k

x² = 169/k²

Set both values of x² equal to each other and solve for k the spring constant:

2.494/k = 169/k²

2.494k = 169

k = 67.8N/m

Use k to find x:

Max F = kx = 13N

67.8x = 13

x = 0.192m

The frequency of the system is given by:

f = (1/(2π))√(k/m)

f is the frequency, k is the spring constant, m is the mass.

f = (1/(2π))√(67.8/4.1)

f = 0.647Hz

The amplitude is the maximum distance from the mean position. The amplitude for the motion for the given mass is 2.658 m.

From the formula of Maximum velocity :

[tex]V_{max } = 2\pi fA[/tex]

For Amplitude:

[tex]A = \dfrac { V_{max}}{2\pi f} [/tex]

Where,

[tex]V_{max } [/tex] - maximum velocity of the mass =  0.78 m/s

[tex]f[/tex] - force exerted on the object  = 13  N

[tex]A[/tex]- amplitude = ?

Put the values in the formula and solve it for [tex]A[/tex],

[tex]A = \dfrac {13 }{2\pi \times 0.78 } \\\\ A = \dfrac {13}{4.89}\\\\ A = 2.658[/tex]

Therefore, the amplitude for the motion for the given mass is 2.658 m.

Learn more about the amplitude:

https://brainly.com/question/9351212

Otras preguntas