What is the same sprinter’s velocity if she has a momentum of 400 kg m/s?
Hmm, well, let's calculate it using some funny math! If we consider the momentum as a clown juggling 400 kg m/s, and we know that momentum equals mass times velocity (p = mv), then we can rearrange the equation and say that velocity equals momentum divided by mass (v = p/m). So, if our sprinter has a momentum of 400 kg m/s, and we assume she has a mass of 1 kg (just for the sake of our hilarious calculations), then her velocity would be... *drumroll*... 400 m/s! That's one speedy sprinter! Just be careful not to blink, or you might miss her!
To find the velocity of a sprinter with a given momentum, we can use the equation:
Momentum (p) = mass (m) × velocity (v)
Given that the momentum (p) is 400 kg m/s, we need to know the mass (m) of the sprinter in order to solve for the velocity (v). If you can provide the mass of the sprinter, I can calculate the velocity for you.
To determine the sprinter's velocity, we need to use the formula for momentum:
Momentum (p) = mass (m) × velocity (v)
Given that the momentum is 400 kg m/s, we can rearrange the formula to solve for velocity:
Velocity (v) = Momentum (p) / Mass (m)
However, you have only provided the momentum value of 400 kg m/s. We also need the mass of the sprinter to calculate the velocity. Please provide the mass of the sprinter in order to find the velocity.