Upthrust can be used in designing flotation devices, such as life jackets and boats, to keep them afloat on water. It is also utilized in hot air balloons to provide lift and enable them to float in the air. Understanding upthrust is crucial in engineering and designing objects that need to float or hover.
No, upthrust is not a scalar quantity. It is a vector quantity as it has both magnitude and direction. Upthrust is the upward force exerted by a fluid on an object immersed in it, and its direction is always opposite to the direction of gravity.
Upthrust is a Contact Force. :)
The submarine will sink if its weight is greater than the upthrust acting on it. Upthrust is the force pushing an object upwards in a fluid, such as water. When an object's weight is greater than the upthrust, it will sink.
The force that acts against upthrust is gravity. Gravity pulls objects downward, opposing the buoyant force provided by upthrust.
To find the upthrust needed to keep a 1600 N object afloat, you need to consider the weight of the object. The upthrust must equal the weight of the object for it to stay afloat, so the upthrust required would be 1600 N.
Hassium has not practical uses.
Ununseptium hasn't practical uses.
Hassium has not practical uses.
Only for experiments, not practical uses.
Dubnium hasn't practical uses.
three practical uses of an acid is in a home, food, and industry. the same goes for a base.
Any practical uses, only for scientific experiments.
Meitnerium hasn't practical uses, it is only for reseach.
No practical uses, only for experiments in nuclear physics.
Meitnerium hasn't practical uses, it is only for reseach.
There are many practical uses for combat knives besides the obvious- the use by the military for hand-to-hand combat. One of the more practical uses for combat knives are cutting ropes and/or lines.
Upthrust cancels weight out, weight is there but you do not feel it.