1.63 m/s 2
That works out at an acceleration of 1.63 m/s2(Presumably you meant 8.15 meters per second.)You would measure how far the rock dropped in 5 seconds. Then you could work out the final speed (or acceleration) from the "equations of motion".
They would land in the same order in which I dropped them. If I dropped them all at the same instant,then they would all land at the same instant. The same can be said for a truck, a cinder block, and a hair.
Assuming that each object is held with its center of gravity at the same height, and that each is dropped cleanly, with no rotation induced, the one whose lowest part is closest to the ground when dropped will hit first.
Yes. The moon has gravity.
Continue to follow the motion of the satellite
metres1.63 m/s2
That works out at an acceleration of 1.63 m/s2(Presumably you meant 8.15 meters per second.)You would measure how far the rock dropped in 5 seconds. Then you could work out the final speed (or acceleration) from the "equations of motion".
It depends what the weight reading was originally measuring. If it was measuring the weight of the experimenter and the rock they were holding, and the water is not being held by them, then the weight will decrease by the weight of the rock. If it was measuring the weight of the water into which the rock it dropped, then it will increase by the weight of the rock. If it was measuring the weight of something totally unrelated to the experiment, then dropping the rock will have no measurable effect on the reading of the weight. Context needs to be given for the weight reading for a proper answer to be given.
1.63 m/s2
he dropped it from 7 feet in the air. (:
yes.
Standing triple jump was last competed at the 1904 Games in St. Louis and standing high jump and standing long jump were last competed at the 1912 Games in Stockholm.
Yes.
yes, but charges are 60% likely to be dropped
10
Dropped change. Dribbled catsup.
The initial velocity of a dropped ball is zero in the y (up-down) direction. After it is dropped gravity causes an acceleration, which causes the velocity to increase. F = ma, The acceleration due to gravity creates a force on the mass of the ball.