The kinetic energy of the boulder can be calculated using the formula KE = 0.5 * m * v^2, where m is the mass of the boulder and v is its velocity. If we know the velocity of the boulder when it has fallen 500m, we can calculate its kinetic energy using this formula.
Try dividing 500m by 10m/s, what do you get oh yes 50s
The amount of work done in pushing a mower for 500m depends on the force applied. Work is calculated as force multiplied by distance. If a force of 100 N is applied to push the mower for 500m, then the work done would be 50,000 J (100 N * 500 m).
Taking 10 seconds to move 500M would be, ummm, lets see, carry the one, times pi, ummm OH! It would be a speed of 50 meters per second, or 50m/sec That would be whipping right along!
His speed is (500/60) m/s = 8-1/3 m/s .His velocity can't be completely specified using the information in the question.Its magnitude is 8-1/3 m/s. But in order to also state the direction of his velocity,we would also need to know the direction of his velocity.
Well, honey, without knowing the force acting on that mass, you can't calculate acceleration. It's like trying to bake a cake with just flour and no recipe - you're missing a crucial ingredient. So, unless you have the force thrown into the mix, you're out of luck in finding that acceleration.
500m is 50,000 centimeters. (100cm per meter)
You divide metres by 1000 So 500m = 0.5km
A triangle.
500m
0.5km
0.5km
500m
500m
'Dad' walked 500m, according to the wording of the question.
Try dividing 500m by 10m/s, what do you get oh yes 50s
1 Kilometre is 1000metres therefore 500m is half of a Kilometre
A 500m is a little less than once around a football track half a foot ball track is 220m