Calculate the number of moles of an ideal gas if it occupies 1750 dm3 under 125,000 pa at a temperature of 127 c. a. 0.21 moles b. 1.72 moles c. 546.88 moles d. 65.81 moles

Question

16-08-2022
Chemistry

Answered

Calculate the number of moles of an ideal gas if it occupies 1750 dm3 under 125,000 pa at a temperature of 127 c. a. 0.21 moles b. 1.72 moles c. 546.88 moles d. 65.81 moles

Answer :

Other Questions

How many moles of naphthalene are required to react stoichiometrically with 1.24 moles of 2-bromo-2-methylpropane to produce 1.24 moles of t-butylnaphthalene?

How many moles of calcium chloride would react with 5.99 moles of aluminum oxide?

What is the effect of the following on the volume of 1 mol of an ideal gas? (c) Three more moles of the gas are added (at constant P and T).

A sample 0.100 moles of a gas is collected at at stp. what is the volume of the gas in liters? group of answer choices 2.44 l

How many total moles of ions are released when each of the following dissolves in water? (a) 0.75mol of K₃PO₄

How many total moles of ions are released when each of the following dissolves in water? (b) 6.88×10⁻³g of NiBr₂ . 3H₂O

AarushiAanand AarushiAanand · Answer 1 · 2022-08-22T03:20:53-04:00

The number of mole will be 65.81 mole.

An ideal gas would be one for which both the overall volume of the molecules and even the forces that exist between them are so negligible as to have no influence on the behavior of something like the gas.

Number of ideal gas can be calculated by using the formula:

PV = nRT

where, p is pressure, n is number of mole, R is gas constant and T is temperature.

Given data:

V= 1750 [tex]dm^{3}[/tex] = 1750 L

P = 125,000 p = 1.2 atm

R = 0.082 L /mole kelvin

T = 273+127 = 400 K

Now, put the value of given data in above equation.

1.23atm x 1750L = n x 0.0820atm x Liter/ mole x kelvin x 400K

n = 65.81 mole.

Therefore, the number of mole will be 65.81 mole

To know more about mole

https://brainly.com/question/21050624

#SPJ4