Respuesta :
Answer:
a) Acceleration is zero , c) Speed is cero
Explanation:
a) the equation that governs the simple harmonic motion is
x = A cos (wt +φφ)
Where A is the amplitude of the movement, w is the angular velocity and φ the initial phase determined by the initial condition
Body acceleration is
a = d²x / dt²
Let's look for the derivatives
dx / dt = - A w sin (wt + φ)
a = d²x / dt² = - A w² cos (wt + φ)
In the instant when it is not stretched x = 0
As the spring is released at maximum elongation, φ = 0
0 = A cos wt
Cos wt = 0 wt = π / 2
Acceleration is valid for this angle
a = -A w² cos π/2 = 0
Acceleration is zero
b)
c) When the spring is compressed x = A
Speed is
v = dx / dt
v = - A w sin wt
We look for time
A = A cos wt
cos wt = 1 wt = 0, π
For this time the speedy vouchers
v = -A w sin 0 = 0
Speed is cero
When the mass passes through the position where the spring is unstretched, the instantaneous acceleration is at zero.
What is mass?
Mass simply means the quantity of matter that's in a physical body. At the instant that the mass passes through the position where the spring is unstretched, the instantaneous acceleration is zero.
At the instant that the mass passes through the position where the spring is unstretched, the instantaneous acceleration is at maximum.
Lastly, at the instant that the spring is compressed the most, the magnitude of its instantaneous velocity is at zero since the complete kinetic energy is converted to potential energy.
Learn more about mass on:
https://brainly.com/question/15476873
