9.8m/s/s
-BHS
If d = 16*t^2 then there is no significant air resistance.
Changing at a constant rate equal to acceleration.
Surface area is ONE thing that can affect how fast an object falls. Two forces determine how fast an object falls - the force of gravity and the opposing drag on the object from the medium it is falling through. In the case of an object falling in a vacuum, there is no drag so the object falls strictly according to the law of gravity. If an object is dropped through a fluid such as air or water, it can reach a terminal velocity where the force of gravity is exactly counterbalanced by the opposing drag on the object. In this case acceleration ceases - although motion does not. In other words, the object continues to fall, but it doesn't speed up. Drag force is a function of object velocity, viscosity of the fluid it is falling through, the surface area of the falling object, the surface roughness of the falling object, and the geometry of the falling object (spheres usually have less drag than cubes for example).
The frequency distribution usually refers to empirical measurement and there is no formula for finding it. You simply count the number of times an observation falls within a given range.
When an object falls vertically downward, its velocity increases according to the following equation:2aS=vf2 - vi2 or ,2*10*S=v2, orv=(20S)1/2.There is a second case in which a body is thrown vertically upward, here its velocity decreases as it moves upward. Here its velocity becomes zero as it reaches the highest point
You cannot because you do not know how long before the object falls to the ground and so stops moving.
If you know the velocity and the mass, you can use the formula: KE = (1/2) x mass x velocity2. Otherwise, you have do deduce it from other facts. For example, if an object of a certain mass falls from a certain height, you can calculate that it started with a certain amount of potential energy, and assume that after it falls, all of the energy has been converted to kinetic energy.If you know the velocity and the mass, you can use the formula: KE = (1/2) x mass x velocity2. Otherwise, you have do deduce it from other facts. For example, if an object of a certain mass falls from a certain height, you can calculate that it started with a certain amount of potential energy, and assume that after it falls, all of the energy has been converted to kinetic energy.If you know the velocity and the mass, you can use the formula: KE = (1/2) x mass x velocity2. Otherwise, you have do deduce it from other facts. For example, if an object of a certain mass falls from a certain height, you can calculate that it started with a certain amount of potential energy, and assume that after it falls, all of the energy has been converted to kinetic energy.If you know the velocity and the mass, you can use the formula: KE = (1/2) x mass x velocity2. Otherwise, you have do deduce it from other facts. For example, if an object of a certain mass falls from a certain height, you can calculate that it started with a certain amount of potential energy, and assume that after it falls, all of the energy has been converted to kinetic energy.
The equation for speed or fast is v=at and the distance is d=1/2 at2 the acceleration is 'a'.
The speed stays thesame but the distance stays the same.
If an object is dropped from rest at a height of 128 m, the distance it falls during its final second in the air is still 128 m.
ehmm... I'm not sure... what do you want to throw?
for how fast an object falls, use v=gt. g stands for the acceleration of gravity- 9.8 m/s2 v stands for speed t stands for time for how far that object falls, use d=0.5gt2 d being distance
When an object falls down.When an object falls down.When an object falls down.When an object falls down.
ANSWER: a larger distance than in the second before
The answer is 91 ft, of course!
No. Since the speed of a falling object keeps increasing, it falls through more distance in each second than it did in the second before.
when an object falls is it reactin to the force of gravity?