use the equation vave=(3kT/m)^1/2, k=1.38x10-23, m = .028/6.022x1023, T is in Kelvin
58 degrees because it is closer to 69 degrees.
The speed of light in air at 0 degrees Celsius is about 299,702,547 meters per second. This speed can vary slightly depending on factors such as air density and composition.
The speed of light has nothing to do with the temperature of the vacuum. It is c = 299 792 458 meters per second. The speed of sound has much to do with the temperature of the air. At 0 degrees Celsius the speed of sound in dry air is c = 331.29 meters per second.
The word "temperature" refers to the level of heat (or cold) in a certain atmosphere, for example, outdoors or in someone's home. Temperature is generally measured in units known as either "Celsius" or "Fahrenheit".
To calculate the wind chill factor, we would need to use a formula that combines the wind speed and temperature. The wind chill would feel colder than the actual temperature, so it would be lower than 10 degrees Fahrenheit.
The speed of sound in air at 0 degrees Celsius is 331.29 meters per second.
At 50 degrees Celsius, the speed of sound in water is approximately 1,503 meters per second.
58 degrees because it is closer to 69 degrees.
The speed of sound at 30 degrees Celsius is approximately 343 meters per second in dry air. However, the speed of sound can vary depending on factors such as humidity and air pressure.
The sea level has nothing to do with the speed of sound. It's the temperature that matters. At 20° Celsius the speed of sound c = 343 m/s. At 20° Celsius the speed of sound is c = 13 503.937 inches/second.
The average speed of an oxygen gas molecule at 35.0 degrees Celsius can be calculated using the root-mean-square speed formula: vrms = √(3kT/m), where k is the Boltzmann constant, T is the temperature in Kelvin, and m is the molar mass of the gas. Given that the molar mass of O2 is about 32 g/mol, the average speed can be calculated once T is converted to Kelvin (308.15 K for 35.0 degrees Celsius).
The speed of light in air at 0 degrees Celsius is about 299,702,547 meters per second. This speed can vary slightly depending on factors such as air density and composition.
That depends on the temperature. At 20 degrees Celsius speed of sound is 343 meters per second.
Sound travels faster in warmer temperatures. At 30 degrees Celsius, sound will travel faster than at 15 degrees Celsius. This is because sound travels faster in warmer air due to the higher average speed of air molecules.
The speed of sound is given by the formula v = 331.5 + .6T, where T is the temperature of the air in degrees Celsius. If T were negative, then you would simply have a speed of sound less than 331.5 m/s. For example, if T = -5 degrees Celsius, thenv = 331.5 + .6*-5 = 328.5 m/sThere really isn't anything magic about an air temperature of 0 degrees Celsius. Zero degrees Celsius is the temperature at which water freezes, but nothing particularly interesting happens to _air_ at that temperature.
The speed of light has nothing to do with the temperature of the vacuum. It is c = 299 792 458 meters per second. The speed of sound has much to do with the temperature of the air. At 0 degrees Celsius the speed of sound in dry air is c = 331.29 meters per second.
Sound travels faster in air at 20 degrees Celsius compared to 0 degrees Celsius. This is because the speed of sound increases with temperature, as the molecules move quicker and can transmit sound waves more efficiently.