A thermodynamics text by Cengel and Boles will have a table of equations for calculating variable specific heats in the appendix. It is like table A2-c or something like that.
your a piece of poo
by using ideal gas law
768mph
You can calculate the speed of sound through air based on air temperature with the following equation: speed in meters per second = 331.5 + (temp in celcius*0.60)
As the temperature of the medium increases, so does the speed of sound. As the temperature decreases the speed of sound decreases (this is true for air, at least). To calculate speed of sound in air: V = 331 + 0.59T where T is the air temperature in degrees C.
To calculate the delta temperature, you will take the difference between the final and initial temperature.
by using ideal gas law
768mph
You can calculate the speed of sound through air based on air temperature with the following equation: speed in meters per second = 331.5 + (temp in celcius*0.60)
Intake Air Temperature. Is used to calculate air density for the fuel injection
As the temperature of the medium increases, so does the speed of sound. As the temperature decreases the speed of sound decreases (this is true for air, at least). To calculate speed of sound in air: V = 331 + 0.59T where T is the air temperature in degrees C.
it uses outside air temperature to calculate the temperature of the air taken into the engine so that the engine can combust as efficiently as possible, obviously correlating & teaming readings from other sensors such as lambda/throttle position/manifold actual pressure/mass air flow etc.
it uses outside air temperature to calculate the temperature of the air taken into the engine so that the engine can combust as efficiently as possible, obviously correlating & teaming readings from other sensors such as lambda/throttle position/manifold actual pressure/mass air flow etc.
To calculate the delta temperature, you will take the difference between the final and initial temperature.
Sensible heat =1.04*cfm*(entring air temp.(f)-leaving air temp.(f))
Air temperature greatly affects water temperature. When the sun is strong, it increases the temperature of the air and water. On the other hand, when the sun is less intense, the temperature of the air and water decreases.
Higher temperature air is less dense.Less-Dense air has a higher temperature
Speed of sound in air is c ≈ 331 + 0.6 × T. T = Temperature. Speed of sound in air at 20°C is c ≈ 331 + 0.6 × 20 = 343 m/s.