In a vacuum or free-fall environment, all objects fall at the same rate due to the lack of air resistance. This is because the force of gravity acts on all objects equally, causing them to accelerate towards the center of the gravitational field at the same rate. This principle is known as the equivalence principle, as outlined in Einstein's theory of general relativity.
In the absence of air, all objects fall with the same acceleration. That means that at the same time after the drop, all objects are moving at the same speed.
In the absence of air resistance, heavy objects and light objects fall to the ground at the same rate. This is because all objects experience the same acceleration due to gravity, regardless of their mass. However, factors like air resistance can affect the rate at which objects fall.
Gravity causes all objects to fall to earth at the same time. (some objects do not like paper and yarn because of air resistance. but if you block the air resistance by placing it on a book and dropping, it will fall at the same time. Or if you reduce surface area) Gravity causes all objects to fall with an acceleration of 9.8m/s*2
All objects fall at the same time because they experience the same acceleration due to gravity, regardless of their mass. This phenomenon was famously demonstrated by Galileo in the late 16th century.
Two objects cannot occupy the same physical space at the same time due to the principles of physics and the concept of matter occupying physical space. This is known as the exclusion principle and applies to all physical objects in the observable universe.
yes, outer space has no air, so u could drop a 100 pound weight and a 1000 pound weight at the same time and they would still fall at the same speed. (kewl, huh?) :)
Because the gravity is the same. this does not explain why real heavy objects fall at the same rate as light ones since the more mass their is their is supposed to be more gravity.....also how does space/time warped space affect such things as the falling apple
In the absence of air, all objects fall with the same acceleration. That means that at the same time after the drop, all objects are moving at the same speed.
In the absence of air resistance, heavy objects and light objects fall to the ground at the same rate. This is because all objects experience the same acceleration due to gravity, regardless of their mass. However, factors like air resistance can affect the rate at which objects fall.
Space is the separation of objects. Two objects cannot occupy the same place at the same time. It is also what gives objects size and shape. It is how we measure objects.
Gravity causes all objects to fall to earth at the same time. (some objects do not like paper and yarn because of air resistance. but if you block the air resistance by placing it on a book and dropping, it will fall at the same time. Or if you reduce surface area) Gravity causes all objects to fall with an acceleration of 9.8m/s*2
Falling objects behave in such a way that heavier objects will fall faster than the lighter ones. Try to drop a stone and a feather from the same height and at the same time, the stone will fall to the ground first.
All objects fall at the same time because they experience the same acceleration due to gravity, regardless of their mass. This phenomenon was famously demonstrated by Galileo in the late 16th century.
Two objects cannot occupy the same physical space at the same time due to the principles of physics and the concept of matter occupying physical space. This is known as the exclusion principle and applies to all physical objects in the observable universe.
Well it really depends on several factors that have to be just right in order for two objects to fall at the same speed or rate.The three main factors needed to calculate the speed at which two objects fall are Time(t) Velocity(v) and Rate of Acceleration.The formula used to calculate is:Acceleration= v-u/t (the v-u is change in velocity)The reason different objects accelerate the same (when you can ignore air resistance!) is because an object with more mass has more weight, but it also has more inertia.
No, the size of an object does not affect the time of its free fall. In a vacuum, all objects fall at the same rate regardless of their size or mass, as described by the principle of equivalence in the theory of general relativity. This means that in the absence of air resistance, objects of different sizes will reach the ground at the same time when dropped from the same height.
Because no two objects can occupy the same space at the same time. (ie a crash)