The air pressure has no effect.
The static air pressure p_ and the density ρ of air (air density) are proportional at the same temperature. The ratio p_ / ρ is always constant, on a high mountain or even on sea level altitude.
That means, the ratio p_ / ρ is always constant on a high mountain, and even at "sea level". The static atmospheric pressure p_ and the density of air ρ go always together. The ratio stays constant.
When calculating the speed of sound, forget the atmospheric pressure, but look accurately at the very important temperature. The speed of sound varies with altitude (height) only because of the changing temperature there.
Speed of sound is directly proportional to temperature. As temperature increases speed of sound increases. This is because at higher temperature, the molecules vibrate faster and hence help sound propagation .
The denser the medium the faster the speed of sound.
somehow, you can find out how long it takes for the sound to get to the desired area then find out the distance between them and distance divided by time is speed
nano sec and before that it is plankton sec nano sec= about speed of sound plankton sec= about the speed at which the universe is expanding o-o that's pretty fast ( or faster than light travels)
It has a long O sound, and one short E sound. The first E is a short vowel, the second E is an unstressed or schwa sound, the O is a long O, and the third E is silent.
The Speed of light is about 300,0000 m/s (metres per second)
impossible to calculate
You can hear the sound from an owl, ocean, oboe, orchestra and organ. They begin with the letter O.
In words like "dough" or "bough," "ough" is pronounced with an "o" sound as in "oh." This is because English words with "ough" can have different pronunciations based on their origins.
The sound of a sonic boom is the engine noise and vibration of the aircraft, only greatly amplified. Sound is a reverberating pressure wave that travels through air at a constant rate. Sound waves move away from the plane in all directions as it travels, but at the speed of sound these pressure waves at the nose can't get clear of the plane and so begin to 'stack' together, resulting in a much stronger wave and an extremely loud noise. O> = the plane ( ( ) ) = sound waves at rest: ( ( ( ( O> ) ) ) ) Subsonic flight: Sound in front is a higher frequency ( ( ( O> ) ) ) ) ) ) Sonic boom: Sounds can no longer escape directly in front ( ( ( O>) Supersonic flight: Plane is outrunning its own sound () ) ) )() ) ) )() ) ) )( O>
somehow, you can find out how long it takes for the sound to get to the desired area then find out the distance between them and distance divided by time is speed
-- Measure the distance between two points.-- Measure the time it takes the jet to fly from one point to the other one.-- The speed of the jet between the two points is(the distance between them)/(the time it takes to fly from one to the other)
The O has a long O (oh) sound, as in bold and gold.
It has a long O (oh) sound, as in no and so.
No, the word "spot" has a long 'o' sound.
nano sec and before that it is plankton sec nano sec= about speed of sound plankton sec= about the speed at which the universe is expanding o-o that's pretty fast ( or faster than light travels)
No, the word "from" does not have a short "o" sound. The "o" in "from" is pronounced as the diphthong /ɒʊ/.
The vowel sound in "hog" is a short "o" sound.
The first O has a long O sound and the second O has a short O sound.