大象传媒

How can we describe motion? - OCR 21st CenturyAcceleration of free-fall

The movement of objects can be described using motion graphs and numerical values. These are both used to help in the design of faster and more efficient vehicles.

Part of Combined ScienceExplaining motion

Acceleration of free-fall

Near the surface of the Earth, any object falling freely will have an acceleration of about 9.810 metres per second squared (m/s2). Objects falling through a eventually reach . At terminal velocity, the object moves at a steady speed in a constant direction because the acting on it is zero. For example, a skydiver falling spread-eagled through the air reaches a maximum speed of about 53 m/s.

Three stages of falling

There are three stages as an object falls through a fluid:

  1. at the start, the object accelerates downwards due to the force of gravity
  2. as the object's speed increases, frictional forces such as or drag increase
  3. at terminal velocity, the weight of the object due to gravity is balanced by the frictional forces, and the resultant force is zero

The weight of an object does not change as it falls, as long as it stays whole.

A skydiver

The diagram shows what happens to the speed of a skydiver from when they leave the aircraft, to when they reach the ground after their parachute opens.

Rises as skydiver accelerates, levels off as air resistance increases, terminal speed reached, resistance, weight balanced. Canopy opens, drop in speed, air resistance increases, graph returns to 0.

Before the parachute opens:

  1. Immediately on leaving the aircraft, the skydiver accelerates downwards due to the force of gravity. There is no air resistance acting in the upwards direction, and there is a resultant force acting downwards. The skydiver accelerates towards the ground.
  2. As the skydiver gains speed, their weight stays the same but the air resistance increases. There is still a resultant force acting downwards, but this gradually decreases.
  3. Eventually, the skydiver's weight is balanced by the air resistance. There is no resultant force and the skydiver reaches terminal velocity.
  4. When the parachute opens, the air resistance increases. The skydiver slows down until a new, lower terminal velocity is reached.

Note that the skydiver does not go upwards when the parachute opens, even though this can appear to happen when a skydiver is being filmed. The illusion happens because the person with the camera opens their parachute later on, so falls downwards past the skydiver.