The increase in your weight when the lift starts going up or stops going down,
as well as the decrease in your weight when the lift stops going up or starts
going down, is
[ (your mass) x (acceleration of the lift) ] .
Your mass is numerically equal to (0.4536 x your weight in pounds), or else
equal to your "weight" in kilograms if you're unfortunate enough to have
been taught to express it in that fashion.
Please explain why it would.
The weight that a mouse can lift will depend on its size. It is estimated that mice can lift things that twice their body weight.
Yes very very slightly.
A true spider can lift eight times its weight.
http://www.gesusa.com/help_answer.asp?ID=21 Yes there are and they change from lift to lift depending on quality and condition. Their are over four main types of lift type in the url to find out more.
They are independent and opposing forces. Lift must exceed weight in order to fly.
The weight of an aircraft counteracts the lift produced by an aircraft. The heavier an aircraft weighs the greater the lift needed to get off the ground.
weight = ?
The lift force is the force acting against the aircraft's weight. For straight and level flight, lift acts in the upward vertical direction and the weight of the aircraft acts in the downward vertical direction. For level flight, lift = weight.
it is proven that you can lift your weight or more And you can push nearly 2 times more with your legs!
The amount that a healthy person can lift depends on their height and weight.
Lift, weight, thrust and drag.