Seems it is related to simple harmonic oscillation
The expression for velocity v = w ./ (a2 - x2)
Plug x = a/2. and get the required v. w is the angular frequency
To find velocity with mass and momentum, you can use the formula: velocity momentum / mass. Simply divide the momentum by the mass to calculate the velocity.
To find velocity when given mass and momentum, you can use the formula: velocity momentum / mass. Simply divide the momentum by the mass to calculate the velocity.
amplitude is the maximum displacement right from the equilibrium position. It does not depend on the mass, period or velocity. Recall displacement at any instant t is y = A sin 2 pi f t or A sin 2 pi t/T f = frequency and T - time period.
To find impulse with velocity and mass, you can use the formula: Impulse mass x change in velocity. This means that the impulse is equal to the mass of an object multiplied by the change in its velocity. By calculating the product of the mass and the change in velocity, you can determine the impulse experienced by the object.
You can find the mass by dividing the momentum by the velocity. The formula for momentum is mass multiplied by velocity, so by rearranging the formula you can solve for mass by dividing momentum by velocity.
To find velocity with mass and momentum, you can use the formula: velocity momentum / mass. Simply divide the momentum by the mass to calculate the velocity.
To find velocity when given mass and momentum, you can use the formula: velocity momentum / mass. Simply divide the momentum by the mass to calculate the velocity.
amplitude is the maximum displacement right from the equilibrium position. It does not depend on the mass, period or velocity. Recall displacement at any instant t is y = A sin 2 pi f t or A sin 2 pi t/T f = frequency and T - time period.
To find impulse with velocity and mass, you can use the formula: Impulse mass x change in velocity. This means that the impulse is equal to the mass of an object multiplied by the change in its velocity. By calculating the product of the mass and the change in velocity, you can determine the impulse experienced by the object.
momentum = mass x velocity => mass = momentum / velocity
You can find the mass by dividing the momentum by the velocity. The formula for momentum is mass multiplied by velocity, so by rearranging the formula you can solve for mass by dividing momentum by velocity.
You cannot. Force = Mass*Acceleration or Mass*Rate of change of Velocity.
You can't. The mass is irrelevant to velocity. You need the distance.
When you have kinetic energy, you must have a mass and a velocity since kinetic energy is half the product of the mass and the square of the velocity.
Momentum is the product of an object's mass and its velocity. The formula for momentum is: momentum (p) = mass (m) * velocity (v).
Momentum = mass x velocity. Here velocity is constant. So momentum is directly proportional to the mass. Hence as mass decreases momentum too decreases proportionaly. If mass is reduced to half of its original then momentum also gets reduced to half of its original
To find velocity using impulse and mass, you can use the formula: velocity impulse / mass. Impulse is the change in momentum, which is calculated by multiplying the force applied to an object by the time it is applied. By dividing the impulse by the mass of the object, you can determine the velocity at which the object is moving.