they use it to stay underwater without going up out of the water. They have adapted to 'float' in the water against the buoyant force.
Use 'wird buoyant in a sentence.
The buoyant beach ball floated in the sea...
rgvarfbdfv
a bouoyant force a weight and light
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.
That depends on the amounts, of course - what exactly you are comparing. The buoyant force depends on the volume. For a certain volume of lead, there will be the same buoyant force as for the same volume of iron. On the other hand, since lead has a greater density, the buoyant force on a certain amount of MASS of lead will be less, compared to iron, since the same mass of lead will use up less volume.
The Buoyant force depends on the equation Fb=mfg where Fb is the buoyant force, mf is the mass of the fluid (water) that is displaced by the body and g is the Earth's gravitational constant 6.673x10-11Newton Meters squared per kilograms squared (Nm2/kg2) Submarines use buoyant forces and gravity to move up and down with in the water. When the Buoyant force is less than the Earth's gravitational pull on the submarine, it sinks, when the buoyant force is greater than the Earth's gravitational pull on the submarine, it rises. Once the submarine is already submerged, the buoyant force is constant. Submarines adjust the Earth's gravitational pull on it by filling the space in between the inner walls and outer walls with water and/or gasses. With out buoyant forces, the submarine would never return to the surface of the water.
it means you are a stupid head and if you dont get out of here then you are going to get slaped to death in a minute.
First of all, the buoyant force on the object doesn't depend on how you measure it, or whether you measure it at all. The buoyant force on an object in a fluid, whether it's submerged partially, entirely, or not at all, is equal to the weight of the fluid that would fill the space occupied by the object if the object weren't there.
Sea water
Seawater
The buoyant economy did not allow new comers in the market The buoyant behavior of a person determines her characteristics.