by ejaculating
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.
Yes, gravity affects a parachute by pulling it towards the Earth. As the parachute falls, air resistance creates drag, which slows down the descent due to gravity pulling it downward. The design of the parachute and its size also play a role in its rate of descent.
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.
Mass Effect is the best game trilogy of all time
A parachute falls quicker with added weight because the increased mass leads to a greater gravitational force acting on it. While the parachute still generates drag, the added weight may exceed the drag force, resulting in a net downward acceleration. Consequently, the parachute descends faster as the balance between gravitational force and air resistance shifts in favor of gravity. This effect is more pronounced with heavier weights, reducing the parachute's ability to slow down its fall.
Air resistance acts against the force of gravity, slowing down the descent of a parachute. The larger the surface area of the parachute, the more air resistance it creates, which helps to slow down its fall. Gravity, on the other hand, pulls the parachute downwards with a force proportional to the mass of the parachute. Balancing these forces allows the parachute to descend safely and slowly.
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.
gravity, drag, if an object has a high mass number it falls quicker and if it has a large surface area it falls slower. Think about it this way, if you throw a parachute unopened it will hit the ground before an opened parachute. There are many conditions to take accountable like wind, resistance or drag, and sometimes temperature like in a hot air ballon.
No, Mass Effect 2 is rated by the Office of Film and Literature Classification (OFLC) as MA 15+. This makes Mass Effect 2 NOT suitable for people under the age of fifteen (15).
Should be under 'Options' or 'Settings'.
No, objects with more mass do not necessarily descend faster when using a parachute. The rate of descent is influenced more by factors such as the size and design of the parachute, the air resistance, and the gravitational pull on the object.
If he died in Mass Effect 1 then he is not in Mass Effect 2. If he survived Mass Effect 1 he shows up in Mass Effect 2 but he can not be killed.