It's also known as the force of air resistance.
Terminal Velocity.
This is commonly known as Free Fall
The upward force is called the normal force. It is equal in magnitude and opposite in direction to the force of gravity acting on the box, preventing it from falling through the table.
The force produced by gravity acting on mass is known as weight. It is the force exerted by gravity on an object due to its mass. Weight is a force measured in newtons and is directly proportional to an object's mass.
Yes, a force acting perpendicular to a horizontal force on a body can cancel out the horizontal force if the two forces are equal in magnitude and opposite in direction. This is known as the equilibrium condition, where the net force acting on the body is zero.
An object falling freely under gravity is known as a free-falling object, where gravity is the only force acting on it. In the absence of other forces like air resistance, the object accelerates at a constant rate of 9.8 m/s^2 (approximately) towards the Earth's surface.
air resistance
Yes, there is a maximum velocity for a falling object, known as terminal velocity. Terminal velocity is reached when the force of air resistance on the falling object is equal to the force of gravity acting on it, resulting in a constant velocity. The terminal velocity varies depending on factors like the object's size, shape, and weight.
The speed at which the acceleration of a falling object reaches zero due to air resistance balancing its weight is called the terminal velocity. This occurs when the drag force from air resistance equals the force of gravity acting on the object, resulting in a net force of zero and no further acceleration.
The greatest speed reached by a falling object is known as terminal velocity. This is when the gravitational force pulling the object down is equal to the air resistance acting against it, resulting in a constant speed. Terminal velocity for a human falling through the atmosphere is around 120 mph (200 km/h).
An unbalance force means that the total force acting on an object, also known as the net force, is not equal to zero.