If air resistance equals the force of gravity, the object will cease to accelerate, so its velocity will remain constant.
While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".
It's called terminal velocity and it's when the downward force of gravity equals the upward force of drag due to air resistance.
When air resistance equals the pull of gravity, terminal velocity is reached. This is experienced by all falling objects if given enough time, and this is classically explained in Physics using skydivers.
Based on the 9th grade book of Physical Science... Gravity is a force that acts between two masses, and Terminal velocity is the constant velocity of a falling object when the force of air resistance equals the force of gravity. So, gravity causes objects to accelerate downward, whereas air resistance acts in the direction opposite to the motion and reduces acceleration... which ties together terminal velocity.
From my experience it would depend upon the initial velocity along with the mass of the object and how gravity will cause it to accelerate. Distance also plays a part in that the longer the object has to fall the faster it will fall. That is until it reaches terminal velocity or when the force of gravity equals the resistance force like air resistance.
Assuming that you're referring to an object that is accelerating towards a massive body by means of gravitational attraction... When the force of frictional air resistance equals the opposing force of gravity, the net force on the object equals zero, and acceleration will cease. It is called terminal velocity, and the object will remain at this velocity until some new event happens.
While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".While an object falls faster and faster, the backwards force of air resistance will increase. Once the force of air resistance equals the force of gravitation, the object will no longer accelerate, and is said to have reached "terminal velocity".
It's called terminal velocity and it's when the downward force of gravity equals the upward force of drag due to air resistance.
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
This state is known as terminal velocity. In it's current shape, an object as described cannot travel any faster. The force of gravity is constant where as the force of air resistance increases with velocity so it takes time for an object to reach its terminal velocity.
When air resistance equals the pull of gravity, terminal velocity is reached. This is experienced by all falling objects if given enough time, and this is classically explained in Physics using skydivers.
When the length of the time is decreased more and more ,average velocity of the particles equals instantaneous velocity.
Air resistance equals the pull of gravity, so essentially zero.
The faster something moves, the more air resistance is created. So as gravity pulls something faster, the air resistance increases as it's speed does, until the forces of air resistance and gravity are equal, making the object move at a steady pace.
Based on the 9th grade book of Physical Science... Gravity is a force that acts between two masses, and Terminal velocity is the constant velocity of a falling object when the force of air resistance equals the force of gravity. So, gravity causes objects to accelerate downward, whereas air resistance acts in the direction opposite to the motion and reduces acceleration... which ties together terminal velocity.
the object will floatit shows increasing acceleration