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Typically, the atmosphere in spacecraft is kept close to what it is at sea level on earth, so no compression/decompression is required. Many spacesuit designs use a lower pressure, and spacewalkers "pre-breathe" 100% oxygen for several hours when preparing for spacewalks in order to prevent issues such as "the bends".
Outside temperature is largely immaterial. It is really the difference between the temperature inside and outside of the balloon envelope that generates the lift. If both are exactly the same, then the balloon will simply fall under gravity -- it has no buoyancy. As the inside temperature increases, so does its buoyancy. Eventually, the difference will be sufficient to overcome gravity, and the greater the difference, the faster it will rise. When the optimum altitude is achieved, the air inside is allowed to cool to an optimum level to maintain that altitude; the optimum temperature will vary according to the outside temperature and the weight of the balloon. The outside temperature will vary according to altitude, as will air pressure outside of the balloon, therefore there is no single answer to the question. It is the difference in temperature that is important, not the actual temperature.
Surface temperature is the temperature on the outside of the object. For example the surface temperature of the Earth is the Ground temperature and the surface temperature of an orange is the rind not the pips.
The relationship that you expect to find between the air temperature and dew point temperature at ground level if the area is covered by fog is the temperatures of th air and the dew point would be very close in value.
The relationship that you expect to find between the air temperature and dew point temperature at ground level if the area is covered by fog is the temperatures of th air and the dew point would be very close in value.
Typically, the atmosphere in spacecraft is kept close to what it is at sea level on earth, so no compression/decompression is required. Many spacesuit designs use a lower pressure, and spacewalkers "pre-breathe" 100% oxygen for several hours when preparing for spacewalks in order to prevent issues such as "the bends".
A humidity level of 35-40 percent is considered best. Room Temp
55 to 65 % seems comfortable.
it doesnt it just boils it faster.
It will cool down water temperature when by melting down AND it will lift up the water level in the aquarium
The temperature of boiling water at sea level is 100 The temperature of boiling water at sea level is 211.149°F.
If you mean "How does the inside temperature increase and stay there when you turn up the temperature" it's because there is a thermostat inside the oven. When you set the temperature on the oven, the heat will keep increasing and would keep going higher and higher if it wasn't for the fact that there was a thermostat inside. The thermostat will 'click off" once the temperature inside the oven has reached the temperature that you set the dial at. Basically, the element will turn off once it has reached this temperature, and will turn on again when it has cooled the oven down by just a few degrees, then the heat will increase again until it has reached the set heat-level again etc, and so on and so forth. The temperature the hottest to the coolest as this goes on.
"Inside the overflow tank. you get to buy a whole new tank." The switch inside the overflow tank is the coolant level switch. The engine coolant temperature sensor is located on the driver side of the engine near the rear of the engine compartment. by theramonast
(I am going to tell about the movie apollo 13) When there was lack of oxygen level in the spacecraft they used the CO2 filters to filter carbon out of the spacecraft so that there is only oxygen left for them to breath.
Outside temperature is largely immaterial. It is really the difference between the temperature inside and outside of the balloon envelope that generates the lift. If both are exactly the same, then the balloon will simply fall under gravity -- it has no buoyancy. As the inside temperature increases, so does its buoyancy. Eventually, the difference will be sufficient to overcome gravity, and the greater the difference, the faster it will rise. When the optimum altitude is achieved, the air inside is allowed to cool to an optimum level to maintain that altitude; the optimum temperature will vary according to the outside temperature and the weight of the balloon. The outside temperature will vary according to altitude, as will air pressure outside of the balloon, therefore there is no single answer to the question. It is the difference in temperature that is important, not the actual temperature.
The body's internal environment is maintained by homeostasis. The components that are regulated inside the body are temperature, pH level, water, ion and solute balance.
The temperature zones in which the atmospheric temperature increases as the distance above sea level increases are the stratosphere and the thermosphere.