what is it you want to know, please be more specific
This statement is true.
Person on the airplane: Crate will appear to be dropping straight down. Person on the ground: Crate will be curving in the direction the plane is moving.
891.8 newtons.
It goes across.
friction
We have no way of knowing what power the machine was rated for, but with the information given in the question, we can calculate the power it delivered during the crate-lift: It was (1.96) x (mass of the crate in kilograms) x (distance the crate was lifted in meters) watts.
Provided that the parachute has the same surface area for both of the parachutist's, the 200kg man will hit the ground first due to the extra weight from the heavier man.
F=ma F=200kg*9.80665 m/s² = 1980 N
"Stay humble and stay nervous"
Person on the airplane: Crate will appear to be dropping straight down. Person on the ground: Crate will be curving in the direction the plane is moving.
891.8 newtons.
With parachutes and air resistance in the mix, the heavier object probably hits the ground first. If they were simply released from altitude and fell freely, without parachutes or air resistance, then they hit the ground at the same time, no matter how their masses or weights compare.
It goes across.
It really depends. On the person and the type of crate. I think you need to be alot more specsific about that one im afraid. Also depends on the size of the crate. Type of animal..... You get the point. Sorry.
friction
The weight of the crate is acting downward on the ground and the ground is exerting a force equal to the weight of the crate upward on the crate.
A collapsible crate is used for transporting things which would be hard to get out of a regular crate. A collapsible crate can be made flat by folding out all of the sides of the crate.
the crate snakes are found in deserts when they bite someone that person goes into a lock down they can only blink,move a finger or toe. only ur mind is conchies!