Momentum= 400.
In an isolated system the total momentum of a system remains conserved. For example If you fire a bullet from Gun , bullet go forward with some linear momentum and in order to conserve the linear momentum the gun recoils
Calculating average force can be done in two ways, depending on the given information from the questions First Option: F Average= Final Momentum-Initial Momentum divided by time Second Option: F Average= delta MV (Mass x Velocity) divided by time. hope it helps
4 miles per second is 6437.376m per second. Momentum is mass x velocity so mass = momentum ÷ velocity mass = momentum ÷ 6437.376 Of course, if you had given us the whole question it would have helped.
The Law of Conservation of Momentum, which derives from Newton's second and third laws of motion.
momentum change = 670.56 kilogram-meter/second
Either the second basemen or the short stop in responsible for covering second when a runner is trying to steal.
9 hours
In an isolated system the total momentum of a system remains conserved. For example If you fire a bullet from Gun , bullet go forward with some linear momentum and in order to conserve the linear momentum the gun recoils
The lead runner is the runner at the base closest to home plate when there is more than one runner on base. If there are runners on second base and third base, the runner on third base is the lead runner. If there are runners on first and second, the runner on second is the lead runner. If there is only one runner on base, there is no lead runner.
It's a sacrifice fly. The batter is credited with an RBI, and the at-bat does not count against his batting average. The runner on second is inconsequential to the scoring decision.
say there is a runner on 1st and 2nd. the runner on second would run to 3rd and be safe then the runner on 1st would run twould be safeo second and say there is a runner on 1st and 2nd. the runner on second would run to 3rd and be safe then the runner on 1st would run twould be safeo second and
Calculating average force can be done in two ways, depending on the given information from the questions First Option: F Average= Final Momentum-Initial Momentum divided by time Second Option: F Average= delta MV (Mass x Velocity) divided by time. hope it helps
NO. Base runner's must run the bases in the order they batted. If a runner overtakes another runner, he is automatically out.
It does. Momentum=mass* velocity. Momentum is kilogram meters per second
Yes all the other bases are a force out. The runner going to first forces the runner at first to second. The runner at first forces the runner at second to third. The runner at second forces the runner at third to home. You only have to tag the runner when a runner that was "forcing" you (from a previous base) is out. In the scenario you have mentioned the only time the third baseman would have had to tag the runner from second to third would be if the initial force out was behind the runner at either at first or second (the putout thus not forcing the runner from second to third, which would now require a tag. If the initial force out was at first or second, the runner on second would have the choice of going to third or retreating to second, and not "forced" to run. Since the initial force out was at home, the runner from second to third is still being "forced" to run by the runners behind him. Make sense?
6.021 m/second
4 miles per second is 6437.376m per second. Momentum is mass x velocity so mass = momentum ÷ velocity mass = momentum ÷ 6437.376 Of course, if you had given us the whole question it would have helped.