We are merely testing the buoyancy of several types of ping pong balls.
it depends,if the block sinks weight of the block is larger if the block floats with some part inside then weight=buoyancy if it floats buoyancy is larger
yes, it is the same.
This all depends on buoyancy of the liquid the boat is in, and the density (therefore the mass and volume) of the concrete boat.
Buoyancy is what keeps a boat floating on the top of the water. Buoyancy is what makes a helium balloon float in the air.
We are merely testing the buoyancy of several types of ping pong balls.
it depends,if the block sinks weight of the block is larger if the block floats with some part inside then weight=buoyancy if it floats buoyancy is larger
The buoyancy depends on the shape as well as the mass. So it is not simply a question of how much mass is removed, but from where.The buoyancy depends on the shape as well as the mass. So it is not simply a question of how much mass is removed, but from where.The buoyancy depends on the shape as well as the mass. So it is not simply a question of how much mass is removed, but from where.The buoyancy depends on the shape as well as the mass. So it is not simply a question of how much mass is removed, but from where.
Buoyancy
It depends on the buoyancy of an object in relation to the liquid it is in.
Depends on the marshmallow and the marble... a 2g marble will have the same mass as a 2g marshmallow........
Depends on the weight of water. Salted water being heavier ,it will offer more resistance to any floating object. Also the atmospheric pressure might play an important role in the buoyancy.
Not at all. Buoyancy depends only on the volume of an object in fluid. If buoyancy depended on mass, we would expect that every 1-lb stone should float, whereas every 10,000-ton ship should sink.
both....and it depends what you are looking to measure if you are looking to measure buoyancy by comparing the two salts then this is the way to do it.
It depends on the buoyancy force if the weight is greater than buoyancy force it will sink other wise it will float.
Positive Buoyancy. When submarine submerges, it initially uses negative buoyancy to submerge, and then levels out to neutral buoyancy.
It depends on the objects' volume. Different objects that have the same volume, if submerged, experience the same buoyancy. The buoyancy is equal to the weight of the displaced liquit; in other words, volume (of submerged object, or of the submerged part) x density of the liquid x gravity.