Yes it is true that the clock will tick faster if it is hanging on the wall compared to a clock that is always touching the ground. I have great knowledge in this area becuase i am a clock technician and I have been for 28 years now.
i think it is faster in air because in air there isn't any friction .....
Goes by air vs ground and usually faster as a result.
Because the ground is denser than air. The noise of the thunder, form where the lightning bolt strikes the earth, travels faster in the ground than it does through the air.
Tick, tick tick BOOM!
Sound travels faster closer to the ground than in the air because the speed of sound is influenced by the temperature and composition of the medium it is traveling through. As sound moves closer to the ground, it encounters denser air, which conducts sound waves more efficiently than the less dense air higher up. This results in faster sound transmission closer to the ground.
When a sound wave is refracted away from the surface of the Earth, it implies that the temperature of the air is cooler than the temperature of the ground. This happens because sound waves travel faster in warmer air layers than in cooler ones, causing them to refract away from the cooler, denser air near the ground.
tick mark the air pollutants?
Air transport is faster than ground transport because airplanes travel at much higher speeds compared to vehicles on roads and railways. Additionally, air routes are more direct, allowing planes to cover longer distances in a shorter amount of time. Skip ground traffic congestion and avoid obstacles that may slow down ground transportation modes.
A dime. It is smaller and doesn't fight so much air against it.(:
Aroma molecules travel faster in hot air because the heat causes the molecules to move more rapidly and spread out faster. In cold air, the molecules move slower and spread more slowly, resulting in a slower dispersion of the aroma.
Sound waves move faster through the ground because the molecules in solids are closer together compared to air molecules, allowing sound waves to propagate more efficiently. In solids, the tighter molecular arrangement allows for quicker transmission of the wave energy.
Yes, it slows the ball down, it is called air resistance.