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A larger parachute will experience more air resistance, which slows down its descent and results in a longer landing time compared to a smaller parachute. This is because the larger surface area of the parachute allows for more air to be captured and creates a greater drag force, which counters the force of gravity pulling the parachute downwards.
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How mass affect the landing time of parachute?
The mass of an object affects the landing time of a parachute because it influences the rate at which the parachute descends. A heavier object will fall faster than a lighter object, assuming all other factors remain constant. This means that a heavier mass will likely result in a shorter landing time for a parachute.
How does the size of the parachute affect the time it reaches the ground?
A larger parachute will result in more air resistance, slowing down the descent and increasing the time it takes to reach the ground compared to a smaller parachute. Conversely, a smaller parachute will experience less air resistance, allowing for a quicker descent and shorter time to reach the ground.
Identify one factor that would affect the time of a parachutes fall?
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).
Does the shape of a parachute effect its falling time?
Yes, the shape of a parachute can affect its falling time. Parachutes with a larger surface area experience more air resistance, which slows down their descent. A parachute with a streamlined design can also affect how stable the descent is, impacting the overall falling time.
In a controlled experiment a scientist is studying how long a parachutes of different sizes to fall on the ground what is the manipulated variable?
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.
How mass affect the landing time of parachute?
The mass of an object affects the landing time of a parachute because it influences the rate at which the parachute descends. A heavier object will fall faster than a lighter object, assuming all other factors remain constant. This means that a heavier mass will likely result in a shorter landing time for a parachute.
How does the size of the parachute affect the time it reaches the ground?
A larger parachute will result in more air resistance, slowing down the descent and increasing the time it takes to reach the ground compared to a smaller parachute. Conversely, a smaller parachute will experience less air resistance, allowing for a quicker descent and shorter time to reach the ground.
Identify one factor that would affect the time of a parachutes fall?
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).
Does the shape of a parachute effect its falling time?
Yes, the shape of a parachute can affect its falling time. Parachutes with a larger surface area experience more air resistance, which slows down their descent. A parachute with a streamlined design can also affect how stable the descent is, impacting the overall falling time.
In a controlled experiment a scientist is studying how long a parachutes of different sizes to fall on the ground what is the manipulated variable?
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.
What height do skydivers open their parachutes?
Around 3,000 feet above ground. This is to allow enough time to perform your emergency procedures in case of emergency. But also to do your canopy (parachute) checks and to position yourself for your landing. In South Africa the rule is that you must have an open parachute on 1,200 feet above ground. Depending on your speed and type, size and pack of your parachute, it may require anything from 300 to 800 feet for you parachute to open.
What is the definition of parachute?
Parachute may be a noun or a verb.As a noun it means "a cloth canopy that fills with air and allows a person or heavy object attached to it to descend slowly when dropped from an aircraft, or that is released from the rear of an aircraft on landing to act as a brake."Example: You need a parachute to jump our of an airplane.As a verb it means "drop or cause to drop from an aircraft by parachute"Example: He will parachute from an airplane for the first time tomorrow.They plan to parachute when they drop the supplies.or "appoint or be appointed in an emergency or from outside the existing hierarchy."They will chose someone to parachute into the position quickly.
How high do you have to be for a parachute to open safely and on time?
A parachute typically needs to be deployed at an altitude of around 2,500 to 3,000 feet (about 760 to 915 meters) above ground level for a safe and timely opening. This altitude allows sufficient time for the parachute to inflate and for the jumper to adjust their position before landing. However, experienced skydivers may deploy their parachutes at lower altitudes, depending on the type of jump and their level of expertise.
How does the shape of a parachute affect the drop time at which it falls to the ground?
The shape of a parachute can affect the drop time by influencing air resistance. A larger surface area or a more streamlined shape can increase air resistance, slowing down the descent. Conversely, a smaller surface area or more irregular shape can reduce air resistance, leading to a quicker descent.
How does the mass of plasticine on the end of a parachute affect how quickly it falls?
The material of a parachute effects how quickly it opens which corresponds with the total drop time. However the mass of a parachute specifically, with all other variables constant, does not effect the velocity at which it drops.
How does the size of the parachute affect the time it takes for the parachute to reach the ground?
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?
Why shouldn't a parachute be opened at very low or very high altitudeds?
Opening a parachute at very low altitudes can prevent enough time for the parachute to deploy fully, leading to a hard landing and potential injury. Conversely, opening a parachute at very high altitudes can expose the jumper to extreme cold, low air pressure, and oxygen deprivation, which can impair decision-making and increase the risk of hypoxia. Additionally, the increased speed at high altitudes can cause structural failure of the parachute if deployed too late. Proper altitude management is crucial for a safe jump.
