Answer to Question #327596 in Mechanics | Relativity for soph

The equation for kinetic energy:

"E=\\frac{mv^2}{2}."

If bicycle had three times the mass and was moving with one-half the speed?

"m'=3m,\\space v'=\\frac{v}{2}."

"E'=\\frac{m'v'^2}{2}=\\frac{3mv^2}{2\\cdot 4}=\\frac{3}{4}E=\\frac{3}{4}124=93\\space J."

Answer 1: 93 J

If bicycle had twice the mass and was moving at the same speed?

"m'=2m, \\space v'=v."

"E'=\\frac{m'v'^2}{2}=\\frac{2mv^2}{2}=2E=2\\cdot124=248\\space J."

Answer 2: 248 J

If bicycle had the same mass and was moving with twice the speed?

"m'=m, \\space v'=2v."

"E'=\\frac{m'v'^2}{2}=\\frac{m\\cdot 4v^2}{2}=4E=2\\cdot124=496\\space J."

Answer 3: 496 J

If bicycle had one-half the mass and was moving with twice the speed?

"m'=\\frac{m}{2}, \\space v'=2v."

"E'=\\frac{m'v'^2}{2}=\\frac{m\\cdot 4v^2}{2\\cdot 2}=2E=2\\cdot124=248\\space J."

Answer 4: 248 J