Meters should be used to measure the length of a tennis court in metric units.
It would depend on the size of the tennis balls, but assuming a standard 2.63 cubic inches per ball, you would need approximately 122,321 tennis balls to fill 106.6 cubic feet.
Yes, after being soaked in vinegar for 24 hours, the eggshell would have dissolved, leaving behind a membrane that may cause the egg to bounce slightly if dropped from a low height. However, the egg may not bounce as much as a rubber ball due to its fragile nature.
Jupiter is a gas giant made mostly of hydrogen and helium with no solid surface, so there is no "inside" to explore. The immense pressure and heat in Jupiter's interior would crush any spacecraft before it could even get close to the core.
No, Jupiter's gravity is not strong enough to crush bones. While Jupiter does have a strong gravitational force, it is not powerful enough to crush bones of a human or any typical object.
no
A tennis ball will bounce the highest because it is smaller. The smaller amount of mass that it has the more it will bounce and the higher it would get. For example, when you put air into a ball the more mass it builds up but, when the ball is flat it would not bounce.
Do NOT microwave a tennis ball. It will melt the rubber and the fumes emitting will temporarily blur your pupils. It does not increase bounce, it only melts.
It would be a lot harder to play because it wouldn't bounce, so hopefully that won't happen.
because it looses all its air so it wont be able to bounce as high as it would normally do.
Hot. Personal experiments have shown that temperatures below 25°C make the ball bounce less. From 25°C and upwards there aren't any greater changes in height of bounce. The balls bounce almost the same.
Yes, the surface a ball bounces on does affect the bounce of the ball. A harder surface generally results in a higher bounce due to less energy being absorbed upon impact, while a softer surface will absorb more energy, resulting in a lower bounce. The type of surface can also impact the amount of friction, which can influence the bounce of the ball.
A tennis ball typically bounces to about 50-60% of the height it was dropped from. So, if dropped from 5 feet onto asphalt, it would bounce back up to around 2.5 to 3 feet. The actual height can vary depending on factors like the ball's pressure, surface condition, and angle of impact.
Your question is worded weird but, if the court is made of clay, the ball would bounce better than a dirt court, so it affects how well the ball bounces
A basketball will bounce more on concrete because it is a flatter surface then carpet and grass
One might compare this to various objects, such as a pillow and a brick. Say you threw a tennis ball against a pillow, it wouldnt bounce very far. However if you threw it at the brick, it would bounce further. By your question i assume you mean to say the effects on how it bounces. So to answer the question, if the ball is flat, it would bounce less, as it is a softer surface, (much like the pillow) and if it is harder, it would bounce more and higher, (much like the ball off of the brick). Not sure if this helped!
Tons of tennis would like to how the ball bounces on different types of court surfaces. Becuase of the surface a player will have to change his/her gameplain to fit the surface. So basically anyone playing tennis seriously.