They wouldn't land at the same time. the rock will land first and quickly because a rock have bigger mass than a feather. A feather is very light, if you ever tried to drop it from some height you could see that it takes very long time to land and it might go away to another place too.
If there was no air resistance and a feather and a penny were dropped from the same height they would both pick up speed by the same amount and they would hit the ground at the same speed and at the same time.
If they are dropped in a totally controlled manner then they would land in the same spot. However, if dropped by hand, there will be minor differences in the positions of the hand which will affect the outcomes.
If you dropped them at the same time than they would land at the same time. Seperate/ at differing times would be the one you dropped first would land first ;)
If there is no air, the same exact time. But because its on earth, the less dense and less aerodynamic one will land slightly after. Acceleration is about -9.8 meters per second every second
A horst is formed from extension of the Earth's crust. The raised block is a portion of the crust that generally remains stationary or is uplifted while the land has dropped on either side.
If there was no air resistance and a feather and a penny were dropped from the same height they would both pick up speed by the same amount and they would hit the ground at the same speed and at the same time.
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.
If they are dropped in a totally controlled manner then they would land in the same spot. However, if dropped by hand, there will be minor differences in the positions of the hand which will affect the outcomes.
In 1971, astronaut David Scott dropped a hammer and a feather on the moon during the Apollo 15 mission to demonstrate Galileo's theory that objects of different mass would fall at the same rate in a vacuum. This experiment showed that in the absence of air resistance, the hammer and feather landed at the same time, supporting Galileo's prediction.
Astronaut David Scott dropped a feather and a hammer on the moon during the Apollo 15 mission. This was done to demonstrate Galileo's theory that objects of different masses fall at the same rate in a vacuum.
This is impossible to answer correctly as the height when dropped, volume of air and wind can factor the amount of time it would take for it to land
Discounting any friction with the air, they would both hit the ground at the same time.
theoritically yes. if they are placed in a vacuum packed room with no air, just empty space, they can fall at the same rate. if they fell in air, the aerodynamics wouldn't equal out, so the quarter would fall faster.
They would all land at the same time because in the absence of air resistance, all objects fall at the same rate regardless of their mass. This is due to the acceleration of gravity being the same for all objects on the moon.
If you dropped them at the same time than they would land at the same time. Seperate/ at differing times would be the one you dropped first would land first ;)
Because it didnt fell like being in the same place. lol
dropping down fast.Example- The boy was plummeting off the cliff when he realized the water he would land in was foggy.this has been answered by a trained gargoyle professional