True
According to Charles law, the volume of gas decreases with lower temperatures and increases with higher temperatures
The one with the higher mass has greater density since density = mass / volume.......
They both weigh the same: 1kg = 1kg. The kg of butter has a greater volume and the kg of lead has a higher density.
The greater the speed of gas particles in a container, the higher the overall average temperature and kinetic energy of the gas particles. And if volume was held constant, higher the pressure.
Since mass and volume are two different dimensional quantities, there is no meaning in saying that mass is greater or less than the volume.
Yes. And higher frequency means higher pitch. It is not pitch that produces loudness it only accentuates tone/ Loudness is controlled by volume of output.
For two liquids of the same volume, the liquid with a higher density will have greater mass. Similarly, the liquid with a greater mass has a higher density. This is only true for samples of equal volume, however.
Volume is affected. For example, gases require more volume at higher temperatures than lower ones.
This would depend on its volume and mass. Density = mass / volume. If the cotton is compressed it will occupy less volume, so the density becomes greater.
A wave form consists of a frequency and an amplitude. Sound pitch becomes higher (or more squeaky) with a higher frequency. The volume of sound becomes louder with a higher amplitude.
37.5 ml. This varies with temperature. The above volume is at 4 degree C. At higher temperatures, water has less density and therefore the volume would increase. Unusually the water again becomes lighter at lower temperatures till it freezes at zero degrees C.
The kinetic energy of a projectile is directly proportional to its mass. When the projectile strikes, it transfers its kinetic energy to the target in the form of damage. For a fixed volume, a greater density means a higher projectile mass (density=mass/volume). Therefore a higher density means greater damage in the form of penetration and fragmentation.