82 cubic cm 1 ml is equa to 82 cubic cm
82 ml=82 cm3
A heavy steel ship can float because it is designed in a way that allows it to displace a large volume of water, which creates an upward buoyant force greater than its weight. On the other hand, a small steel ball bearing sinks because it is not able to displace enough water to generate an upward buoyant force greater than its own weight. Therefore, the relative buoyant forces are different, resulting in the ship floating and the ball bearing sinking.
Determine the mass, and then put the ball bearing in a known amount of water, and see what the increase in volume is (using cm3 or mm). Then do Mass divided by Displased Water, and you have density.
24cm
For an object to flat it must displace more water than it weighs. So a 1 kg hollow steel ball bust displace 1kg of water. 1 kg of water has a volume of 1 litre so the steel ball must have a volume greater than 1l. Note: 1lite = 1000cm^3
yes, a bouncy ball has volume and mass.
82 ml (millilitres) is the same as 82 cc (cubic centimetres)
A heavy steel ship can float because it is designed in a way that allows it to displace a large volume of water, which creates an upward buoyant force greater than its weight. On the other hand, a small steel ball bearing sinks because it is not able to displace enough water to generate an upward buoyant force greater than its own weight. Therefore, the relative buoyant forces are different, resulting in the ship floating and the ball bearing sinking.
Put an exact amount of water in a measuring cup. Drop in a golf ball. The increase in water level equals the volume of the golf ball, assuming the ball doesn't float. For example, 200mL before ball. 280ml after ball dropped in. Therefore volume equals 40ml or 40 Cubic Centimeters.
Determine the mass, and then put the ball bearing in a known amount of water, and see what the increase in volume is (using cm3 or mm). Then do Mass divided by Displased Water, and you have density.
24cm
To a first approximation, a tennis ball is a sphere. The volume of a sphere is V = 4/3 π r3, where r is the radius of the sphere. So measure the diameter of the tennis ball, divide by 2 to get the radius, and then apply the formula above. You could also measure the volume of a tennis ball by measuring the volume of water that it displaces.
A soccer ball is buoyant because its weight is less than the weight of the water it displaces.
This depends upon what liquid you are placing the baseball in to. When the volume of liquid displaced by putting the object into it is less than the weight of whatever you put in, it will float. So, if a baseball weighs 300g and it is in water, and it displaces 400g of water (because of the baseballs volume), then it will float.
Is this experiment assuming you have to use all of the bearings or can you use them individually? If you use them individually, fill up the water to a predetermined level and take note of the volume. Then, drop in a single bearing and measure the new volume of the cylinder. Subtract the second measure from the first measure, and that is the measurement of a single ball bearing. If you have to use all 10 at once, do the same thing but divide the final sum by 10.
1.3 cm3
you can do a simple easy experiment to find the volume of a ping ball (water displacment). Place the ping pong ball in an amount of water with a known volume in a SI unit of volume (mL, liters). Notice the water has risen. Subtract the vslue of the original water from the new value of the water. This is the ping pong's volume.
according to Archemidies principle ,"when a body is dipped in water its weight is reduced , this reduction in weight s eqivalent to the volume of water which replaced by the body." when a steel ball dropped in water the weight of replaced water by the ball is less than weight of the ball , so the ball sinks. But in the same condition the volume of water replaced by the boat is more wieghy in comparision to the weigh of boat , hence it floats. The term for this is Bouyance. It also explains why a Dirigible(Zeppelin) airship floats in the air. The Volume of Dirigible weighs less than the Air it displaces. Believe it or not, the same is true for Steel Ships. What I find hard to fathom is how a Ship full of heavy crude Oil floats?