(i) In a square container of area 0.25m2 there are total of n=1.20x1024 particles present. The...

2:(i) A gas molecule inside a container is moving towards a wall in positive x direction,...

2:(i) A gas molecule inside a container is moving towards a wall in positive x direction, if the mass of the molecule is 9.1 x 10-11 kg and is moving with velocity of 3 m/s what will be the momentum transferred to the wall when it collides? (ii)If the collision is taking place in 1????, what will be the force generated on the wall? (iii)If the Temperature of a container is maintained to 300K, what should be the Kinetic energy...

silica sand particles of spherical shape have a density of 2650 kg/m^3 and voidage 43 percentage...

silica sand particles of spherical shape have a density of 2650 kg/m^3 and voidage 43 percentage when rest in a packed bed column of diameter D=10 mm. the total mass of particles is 1 kg.the bed is to be fludised by a flowing non reacting gas moving upwards through the bed of solids. i) what is the bulk density of the solid particle? 4 marks ii)calculate the static bed height (H) by the solid particles when rest in the cylindrical...

2.1 de Broglie wavelengths of particles, “quantum” behavior in a gas Consider a gas of atoms,...

2.1 de Broglie wavelengths of particles, “quantum” behavior in a gas Consider a gas of atoms, each of mass m, confined in a container at a temperature T. Assume that the density of atoms in this gas is ρ. Using the law of equipartition of energy, derive an expression for the rms velocity v in terms of the temperature. Use this result to calculate the average de Broglie wavelength λ of atoms in this gas. At what temperature TQ does...

A sealed container of volume V = 0.10 m3 holds a sample of N = 3.0...

A sealed container of volume V = 0.10 m3 holds a sample of N = 3.0 × 1024 atoms of helium gas in equilibrium. The distribution of speeds of the helium atoms shows a peak at 1.1 × 103 m s−1. (i) Calculate the temperature and pressure of the helium gas. (ii) What is the average kinetic energy of the helium atoms? (iii) What is the energy corresponding to the maximum in the energy distribution? (Take the mass of each...

A rigid cubic container of side 0.25 m is filled with 10 moles of the ideal...

A rigid cubic container of side 0.25 m is filled with 10 moles of the ideal gas Xenon and is then sealed so that no gas can get out or in. The initial pressure of the gas is recorded as 2.8 x 105 Pa. You may use the following values for this question: Gas constant R: 8.31 J/(mol K) Boltzmann constant kB : 1.38 x 10-23 J/K Avogadro's number NA: 6.02 x 1023 /mol A) Determine the total amount of...

I have some doubts on these problems Two particles, each having a mass of 3.0 mg...

I have some doubts on these problems Two particles, each having a mass of 3.0 mg and an equal and opposite charge of 5.0 nC, are initially stopped at a distance of 5.0 cm and are freed at the same time. What is the velocity of both particles at the instant they are separated by 2.0 cm? Two point-shaped charges of 8.0 μC are placed on the x-axis at points x = ± 1.0 m and are freed at the...

If the number of moles of an ideal gas in a firm container doubles while volume...

If the number of moles of an ideal gas in a firm container doubles while volume and temperature remain constant … a. pressure doubles b. pressure quadruple c. pressure remains constant d. pressure is reduced to half e. pressure is reduced to a quarter    a     b     c     d     e incorrect IncorrectQuestion 2 0 / 1 pts There are 3 balloons sitting next to each other, each of a different size. What is in the biggest...

Question 4 (a) The density of a gas can be calculated using p = ρRT/M ....

Question 4 (a) The density of a gas can be calculated using p = ρRT/M . Derive this equation using pV = nRT where p = pressure, V = volume, n = moles, T = temperature, R = gas constant, ρ = density, M = molar mass (See Reader). (b) Calculate the density of air at 150 oC and atmospheric pressure assuming a composition (by volume) of 21% oxygen (O2), 78.03% nitrogen (N2) and 0.97% argon (Ar). (c) Convert an...

An airplane wing is coated with a volatile surfactant that reduces friction during flights. The mass...

An airplane wing is coated with a volatile surfactant that reduces friction during flights. The mass transfer coefficient (kc’) for the transport of evaporated surfactant is 3.7 x 10-5 m/s and the vapor pressure of the surfactant is 0.003 atm under the flight conditions. During the flight, the temperature is typically –50 oC at the altitude of the flight path, while the pressure is 0.2 atm. (i) What is the flux of surfactant if the system is under equimolar counter...

Part I In the first part of this homework, you are going to derive a relationship...

Part I In the first part of this homework, you are going to derive a relationship between pressure, temperature and height in the atmosphere. The equation that you will derive is called the Hypsometric Equation (or sometimes the Thickness Equation) and it has practical uses as well as being helpful for understanding why the general air flow in the midlatitudes is from the west so once you have derived the equation, you will apply it to a real-life example. Begin...