Gravity is the most valuable force for a parachute. When a parachute is deployed, it creates drag forces that counteract the force of gravity, allowing the parachute and its user to descend safely to the ground.
When a parachute is deployed, the action force is the air resistance pushing against the parachute fabric. This air resistance is created by the change in the air's velocity as it passes through the canopy of the open parachute. The reaction force to this action force is the drag force created by the parachute pulling against the jumper. This drag force is created by the increase in the parachute's surface area, which slows the jumper down as they fall. The drag force is also responsible for the parachute's ability to slow the jumper's descent enough to safely reach the ground.
The force that changes when the parachute opens is air resistance, also known as drag force. As the parachute opens, it increases the surface area exposed to the air, which increases the drag force acting on the parachute and slows down the descent of the object attached to the parachute.
When a parachute is deployed, the action force is the air resistance pushing against the fabric of the parachute, and the reaction force is the fabric of the parachute pushing back against the air. This interaction creates drag, slowing down the descent of the person or object attached to the parachute.
The upwards force on a parachute is called lift. It is created by the air resistance or drag generated by the canopy of the parachute as it falls through the air.
The force pushing a parachute up is called drag. It is created when the parachute interacts with the air as it falls, slowing down its descent.
When a parachute is deployed, the action force is the tension force exerted by the parachute on the air molecules it displaces downward. The reaction force is the equal and opposite drag force exerted by the displaced air molecules on the parachute fabric, which slows down the descent of the parachutist.
In a parachute system, the balanced force is the air resistance (drag) acting against the force of gravity. The drag force slows down the descent of the parachute, creating a balanced force that allows it to glide safely to the ground. An unbalanced force would occur if the parachute experiences a sudden shift in wind direction or if there is a malfunction with the parachute system, causing it to descend faster or slower than intended.
When a parachute is deployed, the action force is the parachute pushing against the air resistance, creating drag. The reaction force is the air pushing back up on the parachute, providing lift and slowing down the descent of the object attached to the parachute.
The upward force in a parachute jump is caused by air resistance or drag acting on the parachute as it opens and expands. This creates a drag force that slows down the descent of the jumper, allowing them to land safely.
The main forces acting on a parachute are drag force (opposes the motion) and the force of gravity (pulls the parachute downwards). Upthrust, also known as lift force, can also be present when the parachute is deployed properly and creates a lifting force that helps slow down the descent. Overall, the forces involved include drag, gravity, and lift.
Air resistance, also known as drag force, is the force that slows down a parachute. By increasing the surface area of the parachute, more air resistance is created, slowing down the descent. Gravity acts as the force causing the parachute to speed up initially before air resistance counteracts it.