A true spider can lift eight times its weight.
A true spider can lift eight times its weight.
Nothing. They can't lift, the type of "hands" they have prevent them. Well, maybe except for a mouse, but they hold the tail in between their "fingers," and the mouse only ways about a few ounces.
The force needed to lift a weight of 200N would be 200N. This is because the force needed to lift an object against gravity is equal to the weight of the object itself.
Depends what make and model.
The lift produced by the wings is greater than the weight.
The weight of the riders does not affect the amount the ride can lift since the system is designed to lift and carry the combined weight of the riders and cars. Air resistance is a factor that the ride must overcome to lift riders into the air.
A rating plate will be on the forklift which should tell you the max lift weight, it will lift more but this is very dangerous
By trying to lift too much weight.
To lift 200 pounds of weight, you would need to apply a force equal to the weight being lifted, which in this case is 200 pounds. This is because the force needed to lift an object against gravity is equal to its weight.
Neil Hurst could list approximately 400 pounds. However, he was trained and fit enough to attempt to lift that much weight.
In order to lift off the ground, the lift force (the upward force generated by the wings) has to be at least as great as the weight of the aircraft. Lift and weight are opposing forces and are equal in straight and level flight.