On earth, any vertical force greater than 661.39 pounds will lift a mass of 300 kg.
Well, if the Upthrust were greater than the weight, there would be a net force upwards, and as a consequence of newtons second law a=F/m it accelerates upwards. Hence, the submarine floats.
Neither is greater.
In weight, 1.2kg is much heavier than 285g
2
It takes off
The four basic forces acting on an aircraft are Lift, Weight (Gravity), Thrust, and Drag. In order for an aircraft to ascend, Lift must be greater than Weight, and Thrust must be greater than Drag.
When weight is greater than lift, the airplane will begin to descend. This imbalance causes the airplane to lose altitude as gravity overcomes the lift force generated by the wings. To regain equilibrium, the pilot may need to adjust the angle of attack or power settings to increase lift.
Yes, in order for a plane to land safely, the lift (created by the wings) must be greater than the weight of the aircraft. This helps the plane maintain control during the descent and landing process.
If the lift force becomes greater than gravity, the object will experience an upward acceleration. This could result in the object lifting off the ground or moving upwards, depending on various factors such as air resistance, weight, and drag. If the lift force continues to be greater than gravity, the object will continue to accelerate upwards.
The lift produced by the wings is greater than the weight.
If the force is not greater than the weight of the bale, the bale will not move.
If the weight of the plane is greater than the lift produced by its wings, the plane will not be able to maintain level flight and will start to descend. This situation is known as a stall, and if not corrected promptly, it can lead to a loss of control and potential crash. Pilots use various techniques to avoid stalling, such as adjusting the angle of attack or reducing the weight of the aircraft.
Any force greater than its weight.
To lift the baloon, upthrust should be greater than weight. Mg
If the lift becomes less than the weight, the object will begin to descend due to the force of gravity overcoming the lift force. The object will accelerate downwards until it reaches a new equilibrium where the lift and weight forces are balanced.
It sinks