Measure how much it can lift.
yes in case of buoyant force........
mass of the block is 3.5kg so block is floats on the water then we are say density of the body less than the water there is only along normal force acting the body buoyant force=mass*gravity B=3.5*9.8 B=34.8Kg/m/sec^2. thank you
You cannot. A pound is a measure of mass while a newton is a measure of force, The two measure different things and conversion from one to another is not generally valid.
Work
Archimedes' Principle states that for a body immersed in a fluid it will experience a buoyant force equal to the weight of the fluid that the body displaces, buoyancy is the phenomenon of concern.
The magnitude of a buoyant force on a balloon depends on the size of the balloon. In other words, the force will be either big or small depending on the correlating size of the balloon in use with the experiment.
Buoyant force and weight
a small helium balloon :) i think.... i dont actually know the answer i just know that a small helium balloon will be very buoyant :)
The downward force of gravity, and the upward buoyant force resulting from the low density air inside the balloon.
The buoyant force doesn't depend on the object's weight. It depends on theobject's volume, which the question doesn't reveal.
Elephant. :)
No, it actually might decrease due to balloon being compressed by pressure. Floating objects are governed by Archimedes Principle which states that the weight of a floating object is equal to the water it displaces. A corollary of Archimedes Principle is that the buoyant force acting on an object is equal to the volume of water displaced. Therefore, when a balloon is compressed as it submerges it displaces less water and the buoyant force decreases proportionately.
1 newton.
bcoz hydrogen gas is less denser than air and is exerts buoyant force on balloon
A balloon attached to a lead weight.
Any force directed away from the center of the Earth does that. Examples include: -- the buoyant force on an object in water -- the buoyant force on a helium party balloon -- the buoyant force on a battleship -- the lift force on the wings of an airplane in level flight -- the tension in the stem of an apple hanging from the tree -- the force of arm muscles when you lift a cup of coffee -- the force of leg muscles when you climb a step.
Yes. The helium will seep through ths skin of the balloon, reducing its buoyancy.