if all other things remain same, then yes
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.
Mass is always drawn to other mass. This is what produces the effect of Gravity, which is responsible for pulling the mass downward. When falling, there is one major factor which controls how quickly it falls--friction. The greater the surface area of the object, the greater the friction of air passing it, and slowing it down. The parachute adds a great amount of surface area without much extra mass, so the air-resistance (friction of air against it) is much greater. This causes it's "terminal velocity" (the greatest speed at which it can fall) to decrease dramatically. The end result is that because of the "difficulty" the air has getting around and past the object as it falls, the object dropps much more slowly. Take away the parachute, and it will drop much more quickly.
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.
No, increasing the mass of an object will not make it go faster. In fact, the more massive an object is, the more force is needed to accelerate it and the slower it will move.
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 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.
Mass does not cause an object to fall faster.
Mass is always drawn to other mass. This is what produces the effect of Gravity, which is responsible for pulling the mass downward. When falling, there is one major factor which controls how quickly it falls--friction. The greater the surface area of the object, the greater the friction of air passing it, and slowing it down. The parachute adds a great amount of surface area without much extra mass, so the air-resistance (friction of air against it) is much greater. This causes it's "terminal velocity" (the greatest speed at which it can fall) to decrease dramatically. The end result is that because of the "difficulty" the air has getting around and past the object as it falls, the object dropps much more slowly. Take away the parachute, and it will drop much more quickly.
its faster
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.
No, increasing the mass of an object will not make it go faster. In fact, the more massive an object is, the more force is needed to accelerate it and the slower it will move.
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).
In the absence of air resistance, all objects fall at the same rate regardless of their mass, as demonstrated by Galileo's experiment on Earth. Therefore, on the moon, an object with more mass would not fall faster than an object with less mass.
the mass of an object. The greater the mass of an object, the greater its inertia. Additionally, inertia also depends on the velocity of the object - the faster an object is moving, the greater its inertia.
Not necessarily. The speed of an object is influenced by various factors such as force, acceleration, and resistance. While a lower mass object may have a tendency to accelerate more quickly, it doesn't always mean it will travel faster than a high mass object in all situations.
No. There's no relationship between mass and flammability.Any mass of tissue paper burns faster than any mass of concrete.
Parachutes are not rated by their speed. A parachute works by increasing the air resistance of a suspended falling body or object. The greater the mass of the object the larger the area of the parachute must be to reduce the speed to an acceptable level.