Yes, when it is windy, parachutes can fall faster due to the increased wind resistance and turbulence affecting the canopy. This can cause the parachute to be more difficult to control and potentially result in a faster descent. Pilots must adjust their techniques to account for the windy conditions.
The surface area, mass and the shape of the parachute affect the time of fall of the parachutes. Also the height, where the parachute have been dropped from. ( There are more factors that this).
The manipulated variable in this experiment would be the size of the parachutes. By changing the size of the parachutes, the scientist can observe how it affects the time it takes for the parachutes to fall to the ground.
The variable being studied is the size of the parachutes.
Increasing air speed will increase the rate of descent of round canopy parachutes due to a higher amount of air resistance acting against the parachute. This increased resistance creates more drag force on the parachute, causing it to fall faster.
Smaller parachutes have less surface area and generate less lift compared to larger parachutes. This results in a faster descent speed for smaller parachutes, causing them to hit the ground sooner than larger parachutes.
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Assuming the parachutes are the same size, then yes.
The surface area, mass and the shape of the parachute affect the time of fall of the parachutes. Also the height, where the parachute have been dropped from. ( There are more factors that this).
Vapors are removed faster.
The reason parachutes were designed was so that people could fall at any height and not get hurt at all.
The manipulated variable in this experiment would be the size of the parachutes. By changing the size of the parachutes, the scientist can observe how it affects the time it takes for the parachutes to fall to the ground.
people on steds
The variable being studied is the size of the parachutes.
Parachutes are designed to catch the air therefore slowing you down on impact. If there happened to be a hole, the air passes through it, making your impact to the ground faster.
it is breezy ,cool,and windy and chilly
Increasing air speed will increase the rate of descent of round canopy parachutes due to a higher amount of air resistance acting against the parachute. This increased resistance creates more drag force on the parachute, causing it to fall faster.
Only if its in contact with the wind.