To find the density of N2O at STP, you need to use the formula that density is equal to mass divided by the volume. At STP, one mole of N2O has a mass of 44 grams, and the volume is 22.4 liters. Dividing these two quantities, one find the answer as 1.96 g/l.
kv = -1.1555 x 10^(-14) x T^3 +9.5728 x 10^(-11) x T^2 + 3.7604 x 10^(-8) x T - 3.4484 x 10^(-6)
Where
kv is kinematic viscosity in M2/sec
T is in K
The above equation is valid from T = 100 to 1600 K.
At 300 degrees Fahrenheit and atmospheric pressure the air:
Dynamic Viscocity (μ) : 4.97 x 10-7 (lbf s/ft2)
Kinematic Viscocity (v) : 3.06 x 10-4(ft2/s)
Some conversion factors for viscocity:
Using the National Institute of Standards and Technology STP of 20 °C (293.15 K, 68 °F) and an absolute pressure of 101.325 kPa (14.696 psi, 1 atm), the density of water is 998.2071kg/m3.
The density of dry air at STP (1 atm, 273 K) is 1.293 kg/m3.
STP is measured at 273 Kelvin and one atmosphere. At standard temperatures and pressures, O2 has a density of 1.429 grams per liter.
p= m/v
p= 32g/22.4cm3
p=1.43g/cm3
1.8 × 10-5 Nsm-2
1.429 grams per liter
"1.96 g/L"
13 L of FeO2 can be produced from 50.0 L of O2 at STP.
The density of hydrogen sulfide is 1.363 g/cm3.
A cubic decimeter is a liter, so we're talking 50L of oxygen gas at STP. 1mol of any gas at STP occupies 22.4L of space, so 50/22.4 = about 2.2mol of oxygen.
i dont now
2.892 kg/m3
1.43 g/cm3
what is the volume of a balloon containing 50.0 moles of O2 gas at a pressure of 15.0 atm at 28 degrees
The estimated value of the density of francium at STP is 1,87 g/cm3.
13 L of FeO2 can be produced from 50.0 L of O2 at STP.
no
The density of hydrogen sulfide is 1.363 g/cm3.
The Density of Neon at STP is: a 0.89994 mg/cm-3.
The predicted density of rutherfordium is 23,2 g/cm3.
A cubic decimeter is a liter, so we're talking 50L of oxygen gas at STP. 1mol of any gas at STP occupies 22.4L of space, so 50/22.4 = about 2.2mol of oxygen.
i dont now
mom
The density of air is 1,225 g/L at STP.