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Dropped objects hit the ground at the same time (as long as they're dropped from the same height) because the acceleration of gravity is constant. On earth, it's 9.8 meters per second (32.2 feet per second) every second.
They fall to the ground at the same time, regardless how much they weigh.
Most likely because they're the same weight. Objects can have completely different masses and have the same weight.
Because of gravity, objects fall at 9.7m/s making them reach the ground at the same time. This does not apply to objects like paper or feathers due to the fluid friction in the air.
All objects will reach the ground when dropped or when they fall at approximately the exact same time except for paper.
Dropped objects hit the ground at the same time (as long as they're dropped from the same height) because the acceleration of gravity is constant. On earth, it's 9.8 meters per second (32.2 feet per second) every second.
objects dropped exactly at the same moment will hit the ground (on earth) at exactly the same moment.
They fall to the ground at the same time, regardless how much they weigh.
Most likely because they're the same weight. Objects can have completely different masses and have the same weight.
Because of gravity, objects fall at 9.7m/s making them reach the ground at the same time. This does not apply to objects like paper or feathers due to the fluid friction in the air.
All objects will reach the ground when dropped or when they fall at approximately the exact same time except for paper.
They'll both hit the ground at the same time.
No. The horizontal distance depends on how close the the ground the gun is. From the firing position, a bullet dropped to the ground will strike the ground in the same time as a bullet shot horizontally forward.
None of these matter. With no air resistance, they all hit the ground at the same time.
They do if the only force acting on them is gravity. If there's any difference in the way two different objects fall, it's the effect of air resistance. If it were only up to gravity alone, then all objects would fall to the ground with the same acceleration. They would have the same speed after the same amount of time, and if they're dropped together, they would hit the ground at the same exact time.
There are many factors that can affect the time for these objects to drop. The height at which each object is dropped is a factor since the height is proportional to time. if the height at which these objects are dropped are the same, then the time for them to drop to the floor is the same. Since the acceleration due to gravity at sea level is 9.81 m/s^2 for all objects no matter the mass, both objects will accelerate at the same rate which means they will reach the floor at the same rate. All in all, both the pencil and the penny will hit the ground at the same time.
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.