Soliah
Member
The equation of motion of a particle P moving along the line x'ox is given by d^2x/dt^2 = -9x, where x cm is the displacement of P from 0 at time t seconds. Initially, x = 4, dx/dt = -12
i) Prove that its speed in position x is 3 sqrt(32-x^2), and show that it never moves outside a certain interval.
This is what I've done
d/dx(1/2v^2) = - 9x
Integrating both sides
1/2v^2 = -9/2x^2 + C
Initially, x = 4, v = 0
0 = -9/2 x 16 + C
C = 72
Therefore,
1/2v^2 = -9/2x^2 + 72
v^2 = 144 - 9x^2
v = +/- 3 sqrt (16 - x^2)
I don't get 3 sqrt(32-x^2)
What did i do wrong?
i) Prove that its speed in position x is 3 sqrt(32-x^2), and show that it never moves outside a certain interval.
This is what I've done
d/dx(1/2v^2) = - 9x
Integrating both sides
1/2v^2 = -9/2x^2 + C
Initially, x = 4, v = 0
0 = -9/2 x 16 + C
C = 72
Therefore,
1/2v^2 = -9/2x^2 + 72
v^2 = 144 - 9x^2
v = +/- 3 sqrt (16 - x^2)
I don't get 3 sqrt(32-x^2)
What did i do wrong?
