Subtract 32 and then multiply result by 5/9
Using the sine rules in trigonometry the height of the mountain works out as 3704 meters in height to the nearest whole number.
0.42 inches per foot.
Find the angle whose tangent is 500/2350, about 12 degrees
(Height of the building)/(length of the shadow) = tangent of 31° .Height = 73 tan(31°) = 43.9 feet (rounded)
No, a ruler is used only to measure length, width or height. You must use a protractor in order to measure the degrees in an angle.
No, degrees height cannot be converted to degrees Celsius as they are measuring different things. Degrees height refers to an angle or inclination, while degrees Celsius is a unit of temperature measurement.
Use this equation to convert degrees Fahrenheit (ºF) to degrees Celsius/Centigrade (ºC): [°C] = ([°F] - 32) × 0.556
The approximate height of the stratopause is between 50 to 55 km. The temperature is about negative15 degrees Celsius or 5 degrees Fahrenheit.
It's easy to convert from Celsius to Fahrenheit by yourself. Tf = (9/5)*Tc+32, where Tc = temperature in degrees Celsius, Tf = temperature in degrees Fahrenheit. 38.2 C is 101 F.
It's spelt Fahrenheit, and said (FAH-RIN-HEIGHT)-it's a unit of temperature measurement, like Celsius (32 degrees Fahrenheit=0 degrees Celsius). Celsius is a newer version (1744 vs. 1724). Each degree change in Celsius is equal to 1.8 degrees in Fahrenheit.
There are 33.8 Fahrenheit degrees in one Celsius degree.
The average decrease in temperature with altitude is around 6.5 degrees Celsius per kilometer, known as the lapse rate. At 2 kilometers above sea level, we would expect the temperature to be approximately 10 degrees Celsius lower than at sea level. Therefore, at a height of 2 kilometers, the air temperature would be around 13 degrees Celsius under average conditions.
40*C is equal to 104*F. Temperature has no height. [*F] = [*C] x 9/5 + 32 [*C] = ([*F] - 32) x 5/9 9/5 = 1.8 5/9 = 0.555...
Volume is measured in 3 dimensions. e.g. Height x width x depth. 2.50 x 10 has no volume - it is a rectangle.
The Bunsen burner can reach temperatures as high as 1,500 degrees Celsius (2,732 degrees Fahrenheit) depending on the fuel source and air supply.
As the altitude increases in the Troposphere, The air temperature decreases. When about 1 kilometer increases in altitude, the air cools about 6.5 degrees Celsius. And at the very top of the Troposphere the air temperature stays the same at around -60 degrees Celsius.
As the altitude increases in the Troposphere, The air temperature decreases. When about 1 kilometer increases in altitude, the air cools about 6.5 degrees Celsius. And at the very top of the Troposphere the air temperature stays the same at around -60 degrees Celsius.