If you assume pressure stays the same (so volume is not limited in any way), you can use the ideal gas law, pV = nRT. I assume an initial condition of ~20C temperature (293K). Also, I assume the temperature you're giving is in degrees F. 35000F = 19427C. If the above assumptions are correct, air will expand 19427 / 293 = 66.3 times its' initial volume.
Swamp coolers only work well in areas with low humidities, such as the desert. They are only capable of lowering the temperature by about 20 degrees if the humidity is quite low. An air conditioner would be much cooler.
If you are talking about an automobile a/c then they can operate as low as 34 degrees as long as the unit cycles......
gas heating temp range from 120-140 degrees, electric heat strip is 110-125 degrees, heat pumps are 95-115 degrees
The air is probably too cold causing condensation at the vents. try increasing the air flow which will warm it a few degrees.
The typical temperature difference between the entering air and the boiling refrigerant on a standard air-conditioning evaporator is usually around 10 to 20 degrees Fahrenheit (approximately 5 to 11 degrees Celsius). This difference allows efficient heat transfer, ensuring that the refrigerant can absorb heat from the air and cool the indoor environment effectively. However, the exact difference can vary based on system design and operating conditions.
it depends on how much it is heated for example when lightning is released it expands the air by thousands of degrees by heat of it.and there is a big banging sound known as thunder
1 liter
Lightning can heat the air surrounding it to around 30,000 degrees Celsius (54,000 degrees Fahrenheit), which is about five times hotter than the surface of the sun. This sudden rise in temperature causes the air to expand rapidly, creating shock waves that we hear as thunder.
It will expand more. And if too much air is added, it will explode.
When air is heated it expands. The gas increases volume by 1 percent for every 6 degrees Fahrenheit making it expand.
it causes air to expand
it causes air to expand
Lightning can heat the surrounding air to over 30,000 degrees Fahrenheit (about 16,600 degrees Celsius). This intense heat causes the air to expand rapidly, resulting in the sound wave we hear as thunder. The rapid expansion and contraction of air create a shockwave, which is why thunder can be heard miles away from the lightning strike.
Lightning can heat the surrounding air to temperatures exceeding 30,000 degrees Fahrenheit (about 16,500 degrees Celsius). This intense heat causes the air to rapidly expand, creating a shockwave that we perceive as thunder. The rapid expansion and contraction of air, combined with the high temperature, contributes to the phenomenon of thunder accompanying lightning strikes.
do you mean fills with air? if so then its the lungs
Lightning heats the surrounding air to extremely high temperatures of around 30,000 degrees Celsius, causing the air to rapidly expand and create a shockwave that we hear as thunder. This rapid expansion and contraction of the air molecules create the characteristic sound of thunder following a lightning strike.
It depends on the pressurization schedule of the Aircraft but in case of an airliner it will be around 6500 feet.