At one atmosphere pressure, and temperature of 60 degrees F, the density of kerosene is 817.15 Kg per cubic meter or 0.81715 Kg per Litre
density of the kerosene is .81715 kg/ l
1634kg/m ^3
810 kg/m^3
The refractive index of kerosene at 20°C is approximately 1.448.
Yes, 10°F=-12°C 20°C=68°F 10 degree Fahrenheit is colder than 20 degree Celsius. 10oF =-12.22oC which is less than 20oC .
Air density is the mass of air per unit volume, which changes by temperature, humidity, and elevation. Changes in air density will change its pressure. At mean sea level and 20°C, air has a density of approximately 1.2 kg/m3.
There IS a difference, which arises because the Celsius scale is not an absolute scale: its zero is arbitrary. What this means is that 20 deg C is not twice as warm as 10 deg C. So, the difference between 10 deg C and 20 deg C is NOT 10 deg C but 10 Celsius degrees.In other words, one Celsius degree is the difference in temperature between n deg C and (n+1) deg C (for any n > -273) whereas one degree Celsius is a specific temperature - a bit above the freezing point of pure water under normal pressure.
QUESTION;why 20 degree centigrade writtenon measuring cylinder? ANSWER: Measuring cylinder. 20 degree centigrade is written on the measuring cylinder because every instrument having a particular temprature where that equipment is kept and work on it measuring cylinder having 20 degree C on it beacause it is the accurate temprature of measuring cylinder and in this tepmrature working on measuring cylinder is possible.
Density @ 15 Deg = 0.7952 ( 20 Deg Density + 0.0032)
Kerosene type BP Jet A-1, 43.15 MJ/kg, density at 15 C is 804 kg/m3
The refractive index of kerosene at 20°C is approximately 1.448.
How do you calculate the density of oxygen gas (O2) at 30 degree C. and 700 mmHg?
Nope... -20 is colder.
20 degree Celsius = 68 degree Fahrenheit
seriously obviously the 75 degrees
How To Calculate The Density Of Oxygen Gas ,O2, At 30 Deg. C And 700 MmHg
20 C
13.6 g.cm-3 at 20°C
20 degrees Celsius = 68 degrees Fahrenheit Formula: [°F] = [°C] × 1.8 + 32
1.2 kg/m3at sea level and at 20 C