The air inside a fully pumped Basketball have a higher pressure than the air outside due to a greater number of gas particles per unit volume inside the ball than in the surrounding air.
If you mean OUTSIDE the basketball, then no. If you mean INSIDE the basketball, then yes.
the higher pressure is due to a greater number of gas particles per unit volume inside the ball then in the surrounding air.
There is no difference of the average local air pressure inside or outside of the headphone.
Yes. A full basketball with medium to high pressure will clearly bounce higher than a flat basketball with low pressure.
Yes, the higher the altitude the higher pressure on the outside of the ball and so the greater the tension of the ball since the particules inside will be pushing out. Therefore it will bounce better.
The material of the basketball will deteriorate more quickly outside. Also, the air pressure inside the ball will be higher indoors so the ball will be more bouncy.
As air fills the basketball, the pressure expands outward to make the outside of the ball feel harder. The valve on the outside of the ball allows the pump to put air in prevents air from escaping.
When the water level is higher inside than outside the flask, the gas pressure in the flask is lower than the atmospheric pressure. This is because the weight of the column of water inside the flask creates an additional pressure on the gas inside, reducing its pressure relative to the atmospheric pressure outside.
When the water level is higher inside the flask than outside, the gas pressure in the flask would be lower than the atmospheric pressure. This is because the water exerts a partial vacuum on the gas in the flask, reducing its pressure compared to the external atmospheric pressure.
If an outside pressure is applied to a fluid, the pressure inside the fluid will increase. This is because the outside pressure adds to the existing pressure of the fluid, resulting in a higher overall pressure.
The air pressure inside the can is always higher than the air pressure outside the can. The air is compressed into the can along with the tennis balls.
When the air inside the can is pumped out, there is a decrease in pressure inside the can. The outside air pressure then pushes on the sides of the can, causing it to collapse. This happens because the higher pressure outside the can is not balanced by the lower pressure inside the can.