An open parachute increases air resistance by capturing and deflecting air molecules. This creates drag force that opposes the skydiver's downward motion, slowing their descent. The increased air resistance allows the skydiver to fall at a more manageable and safer speed.
Thrust does not act on a parachute. A parachute experiences air resistance, which is a force that opposes the downward motion of the parachute and slows its descent. This air resistance allows the parachute to safely decelerate a falling object.
The man falling out of an airplane with a parachute is experiencing fluid friction, as the air molecules slow down the descent of the parachute due to air resistance.
A parachute increases air resistance, which is proportional to the surface area of the parachute. This increased air resistance slows down the person's fall, reducing their terminal velocity. By the time the person reaches terminal velocity with the parachute open, the gravitational force pulling them down is balanced by the air resistance force pushing up, allowing for a controlled descent.
You can increase the time of descent of a freely falling body by increasing its initial height from which it falls. This will give it more distance to cover before reaching the ground, thereby increasing the time it takes to fall. Additionally, you can increase air resistance by changing the shape or size of the falling object, which will also increase the time of descent.
Increasing air resistance on a falling object may be necessary to slow down its descent and reduce impact force upon landing. This can be achieved by increasing the object's surface area or by changing its shape to create more drag force. Parachutes are a common example of devices used to increase air resistance on falling objects.
by increasing surface area
by increasing surface area
Thrust does not act on a parachute. A parachute experiences air resistance, which is a force that opposes the downward motion of the parachute and slows its descent. This air resistance allows the parachute to safely decelerate a falling object.
The man falling out of an airplane with a parachute is experiencing fluid friction, as the air molecules slow down the descent of the parachute due to air resistance.
-- The force of gravity is unchanged before and after.-- The force of air resistance on the skydiver is greater before, and less after,because she is falling slower after the parachute opens.-- The effect on her of air resistance is greater after the parachute is open. Theincreased air resistance itself acts on the parachute, and its effect is transferredto the skydiver through her harness.
A parachute increases air resistance, which is proportional to the surface area of the parachute. This increased air resistance slows down the person's fall, reducing their terminal velocity. By the time the person reaches terminal velocity with the parachute open, the gravitational force pulling them down is balanced by the air resistance force pushing up, allowing for a controlled descent.
You can increase the time of descent of a freely falling body by increasing its initial height from which it falls. This will give it more distance to cover before reaching the ground, thereby increasing the time it takes to fall. Additionally, you can increase air resistance by changing the shape or size of the falling object, which will also increase the time of descent.
Increasing air resistance on a falling object may be necessary to slow down its descent and reduce impact force upon landing. This can be achieved by increasing the object's surface area or by changing its shape to create more drag force. Parachutes are a common example of devices used to increase air resistance on falling objects.
When a parachute is falling at a steady speed, the forces acting on it are balanced. The force of gravity pulling the parachute downward is equal to the air resistance pushing upward, resulting in a state of equilibrium.
Air resistance, also known as drag, is the force that slows down a man falling with a parachute. As the parachute opens, it increases the surface area exposed to the air, creating more drag and slowing down the descent.
An open parachute increases air resistance by creating a large surface area that catches and slows down the air around it. This creates drag that counteracts the force of gravity, slowing the skydiver's descent. The inflated canopy also increases the overall mass of the skydiver-parachute system, further enhancing the air resistance.
if the parachute is wider there will be more air resistance which slows things down and if there are holes the air can pass through which decreases air resistance. so the wider it is the slower it is.the lighter it is the slower it is