Bigger parachutes have more surface area, which creates more air resistance. This air resistance slows down the descent of the parachute, causing it to take longer to reach the ground compared to a smaller parachute with less surface area.
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.
The manipulated variable in this experiment would be the size of the parachute. The scientist would change the size of the parachutes to see how it affects the time it takes for them to fall to the ground.
If you have two parachutes, one big and one small, the biggest one will take more time then the other parachute. This happens because there is more room in the parachute which is causing air to go in side, which is air resistance. The smaller parachute has a lot of air resistance because it is smaller and there is less room for the air to go inside. However, the bigger balloon has little air resistance because it has more room in it for the air to get inside. The air is pushing the balloon up so it will fall slower.
The independent variable is the size of the parachute. It is the variable that the scientist intentionally changes or manipulates in order to observe its effect on the falling time of the parachutes.
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.
The manipulated variable in this experiment would be the size of the parachute. The scientist would change the size of the parachutes to see how it affects the time it takes for them to fall to the ground.
If you have two parachutes, one big and one small, the biggest one will take more time then the other parachute. This happens because there is more room in the parachute which is causing air to go in side, which is air resistance. The smaller parachute has a lot of air resistance because it is smaller and there is less room for the air to go inside. However, the bigger balloon has little air resistance because it has more room in it for the air to get inside. The air is pushing the balloon up so it will fall slower.
Yes, if a weather balloon pops, the instruments attached to it will fall to the ground. These instruments are usually designed to withstand the impact of landing and are typically equipped with parachutes to slow their descent.
The independent variable is the size of the parachute. It is the variable that the scientist intentionally changes or manipulates in order to observe its effect on the falling time of the parachutes.
The reason parachutes were designed was so that people could fall at any height and not get hurt at all.
people on steds
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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?
weight doesnt matter, the bigger one, which has the higher resistance will fall a tiny bit slower
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.