Gulf balls are made from brick and collapsed stars.
A clay ball sinks in water because it is denser than water, causing it to displace water equal to its weight. The ball's density is higher than the density of water, resulting in a downward force greater than the buoyant force pushing it up. This imbalance causes the clay ball to sink to the bottom of the water.
Yes, it does, because oil is lighter than water. The ball will sink more in oil than in water.
No, a ball with a density of 5 g/cm3 will sink in water, as the density of water is around 1 g/cm3 which is less than 5 g/cm3. Objects with a higher density than the fluid they are placed in will sink.
If two perfect spheres of different sizes have the same mass, then the larger ball has a lower density and the smaller ball has a higher density. This is because density is the amount of mass in a given volume, and density is obviously higher if there is a smaller volume for a given amount of mass.
The density of a hollow lead ball filled with water can be increased by adding a denser material, such as mercury, into the ball. This will increase the overall mass of the ball without significantly increasing its volume, thus increasing its density.
A clay ball sinks in water because it is denser than water, causing it to displace water equal to its weight. The ball's density is higher than the density of water, resulting in a downward force greater than the buoyant force pushing it up. This imbalance causes the clay ball to sink to the bottom of the water.
Yes, a Golf ball does have a Higher density than a pingpong ball. I think because if a fusion is compacted real close, it has a higher density than the object that is seperated .
Yes, it does, because oil is lighter than water. The ball will sink more in oil than in water.
No, a ball with a density of 5 g/cm3 will sink in water, as the density of water is around 1 g/cm3 which is less than 5 g/cm3. Objects with a higher density than the fluid they are placed in will sink.
If two perfect spheres of different sizes have the same mass, then the larger ball has a lower density and the smaller ball has a higher density. This is because density is the amount of mass in a given volume, and density is obviously higher if there is a smaller volume for a given amount of mass.
It depends on the speed and the mass but in general a higher density object would be worse. Everything else being equal, it makes sesnes that being hit by an iron cannonball is more serious than being hit by a tennis ball of the same size. The cannon ball is highhigh density and the tennis ball is low density.
If they float in water, then it is because the density of a ping pong ball is lighter than the density of water. The density of water is just below 1, and the density of a ping pong ball is much less than 1.
The density of a hollow lead ball filled with water can be increased by adding a denser material, such as mercury, into the ball. This will increase the overall mass of the ball without significantly increasing its volume, thus increasing its density.
Float the ball in water and calculate the displacement.
If the density of the ball bearing is less than the density of the given oil, the ball bearing will float in the oil since objects with lower density float on substances with higher density. The buoyant force acting on the ball bearing will be greater than its weight, causing it to rise to the surface of the oil.
The golf ball's density is greater than the water, which the water has adensity of 1.
The density of fresh water is 1.0. Anything with a density less than 1.0 will float; anything with a density higher than 1.0 will sink. Objects with densities a little less than 1 will float with most of the volume below the surface; objects with very low densities - like a ping-pong ball - will float mostly on top of the water. Human beings have a density very close to 1.0, so we barely float.