Stuck. Please help e. What is the velocity of the mass when it is 0.040 m from equilibrium?f. What is the kinetic energy and potential energy at half the amplitude (x = A/2)?g.What is the period and frequency of this simple harmonic oscillator? 7. A spring with a spring constant of 55 N/m² is set up horizontally on a frictionless surface with a3.5 kg mass attached to the spring. If the mass is stretched 0.125 m from equilibrium andreleased from rest then determine the following:a. What is the total mechanical energy of the simple harmonic oscillator?.4296875 Jb. What is the amplitude of the horizontal oscillation?C. What is the maximum velocity attained by the mass?d. What is the maximum acceleration attained by the mass?

Name: Stuck. Please help e. What is the velocity of the mass when it is 0.04
Uploaded: 2024-03-20T06:58:04.000Z
Channel: Bartleby
Description: Stuck. Please help e. What is the velocity of the mass when it is 0.040 m from equilibrium?f. What is the kinetic energy and potential energy at half the amplitude (x = A/2)?g.What is the period and frequency of this simple harmonic oscillator? 7. A

“Since you have posted a question with multiple sub-parts, we will solve the first three sub-parts for you. To get the remaining sub-part solved please repost the complete question and mention the sub-parts to be solved.”Given,The spring constant,K = 55 N/ m²The mass of the block, m = 3.5 kgThe spring stretched by, x=0.125 mPart AThe total mechanical energy of the oscillator is given by, . Em = 1/2 . KA² = 1/2× 55× (0.125) ² = 0.429J Part BThe amplitude is the maximum value of the stretch of the spring so the amplitude of horizontal oscillation will be,A= 0.125 mPart CThe max velocity attained by the mass will be,1/2.m(Vmax) 2 = 1/2.K.A² Vmax = A.√k/m= 0.125× √ 55/3.5 Vmax = 0.495 m/sPart d we have the relationW= √ k/m = √ 55/3.5 W =3.96rad/s Amax = w².A = (3.96) ² × 0.125 Amax = 1.964 m/ s²(a) Hence the mechanical energy of the oscillator will be 0.429 j (B) Hence the amplitude of the horizontal oscillation will be 0.125 m.(C) Hence the maximum velocity attained by the mass will be 0.495m/s.(D) maximum acceleration is 1.964m/s²