The larger surface area of a big parachute creates more drag or air resistance compared to a smaller parachute. This increased drag helps to slow down the fall more effectively. Additionally, the shape and design of a big parachute are optimized to catch more air, further enhancing its braking effect.
A smaller parachute will typically descend faster than a larger parachute due to its lower air resistance. This is because a smaller parachute catches less air and therefore has less drag, causing it to fall more quickly.
The larger the size of the parachute the more air resistance is caused because its larger surface traps more air. Becuase there is more air resistance the larger the parachute the slower it travels to the ground. The smaller the parachute the faster it falls to the ground for the opposite reason.
Bigger parachutes have more air resistance and drag force than smaller parachutes. This is because the larger surface area of the bigger parachute creates more friction with the air, resulting in increased resistance and drag.
A larger surface area on a parachute creates more air resistance, which slows down its descent speed. In contrast, a smaller surface area creates less air resistance, causing the parachute to fall faster.
a small parachute becouse it has less air ressitance meaning it traps less air than a big parachute.
A smaller parachute will typically descend faster than a larger parachute due to its lower air resistance. This is because a smaller parachute catches less air and therefore has less drag, causing it to fall more quickly.
The larger the size of the parachute the more air resistance is caused because its larger surface traps more air. Becuase there is more air resistance the larger the parachute the slower it travels to the ground. The smaller the parachute the faster it falls to the ground for the opposite reason.
Bigger parachutes have more air resistance and drag force than smaller parachutes. This is because the larger surface area of the bigger parachute creates more friction with the air, resulting in increased resistance and drag.
A larger surface area on a parachute creates more air resistance, which slows down its descent speed. In contrast, a smaller surface area creates less air resistance, causing the parachute to fall faster.
a small parachute becouse it has less air ressitance meaning it traps less air than a big parachute.
because there is more air resistance
Depends what you mean by "better". A bigger parachute provides more wind resistant so if you were to jump out of a plane, you would want to go big. If your talking speed (like a running parachute) you would want a small parachute to accommodate how much harder you want to make your run
Attaching a parachute to you while you run will catch wind/air, slowing you down. This resistance will make you have to run faster and harder than normal, making your running regimen more intense and effective.
When a parachutist jumps, the parachute deploys and opens up, creating a large surface area. This increases air resistance, which slows down the fall by creating a drag force that counters gravity. The parachute allows the parachutist to safely land at a slower speed than if they were falling freely.
The parachute creates drag by catching the air as the car moves, increasing air resistance and helping to slow down the car. This additional resistance counteracts the car's momentum, allowing it to stop more quickly than if it were relying solely on its brakes.
Yes, until he reaches terminal velocity.
Oh, dude, it's like this: the bigger the parachute, the more air resistance it creates, so it slows down the descent. So, like, if you have a massive parachute, it's gonna take longer to float down than if you're using, like, a tiny one. It's all about catching that air and making the fall a little less speedy, you know?