The density ? at the center of a star is 10^8 kg and the temperature T...

1) A 64 liter tank of an ideal gas at a constant temperature T= 318 K...

1) A 64 liter tank of an ideal gas at a constant temperature T= 318 K and a pressure of 276 atm develops a leak. After the leak was discovered, the pressure was reduced to 120 atm. How many moles of the gas escaped? 2) Assume a rectangular strip of a material with an electron density of n=5.8x1020 cm-3. The strip is 7 mm wide and 0.7 mm thick. A current of 6 A flows through the strip. The Hall...

At temperature of 273 K and pressure of 1.00 × 10−2 atm, the density of a...

At temperature of 273 K and pressure of 1.00 × 10−2 atm, the density of a monatomic gas is 1.24 × 10−5g/cm3. Also, we know 1 atm = 1.01 × 105 Pa, R = 8.31 J/mol.K and ? = 1.38 × 10−23 J/K. (a) Find ???? for the gas particles. (b) Find the molar mass of the gas.

An atomic nucleus can be crudely modeled as a gas of nucleons with a number density...

An atomic nucleus can be crudely modeled as a gas of nucleons with a number density of 0.18 fm-3 (where 1 fm = 10-15 m). Because nucleons come in two different types (protons and neutrons), each with spin 1/2, each spatial wavefunction can hold four nucleons. (a) [10 pts] Calculate the Fermi energy εF of this system, in MeV. Also calculate the Fermi temperature TF. Is it reasonable to treat the nucleus as a degenerate Fermi gas at room temperature?...

What is the density (in kg/m3) of nitrogen gas (molecular mass = 28 u) at a...

What is the density (in kg/m3) of nitrogen gas (molecular mass = 28 u) at a pressure of 2.0 atmospheres and a temperature of 310 K?

A chunk of aluminum has density of 2.7 g/cm3 and atomic mass of 26.98 g/mole; where...

A chunk of aluminum has density of 2.7 g/cm3 and atomic mass of 26.98 g/mole; where each atom in the chunk contributes one conduction electron. Calculate the following:- 1) the Fermi energy. 2) the Fermi temperature and 3) the degeneracy pressure.

Boil a potato and get the center temperature close to 100C. Calculate the surface and center...

Boil a potato and get the center temperature close to 100C. Calculate the surface and center temperature as a function of time. kwater= .6639 W/m*k Cp= 866.9 J/kg*k Rho= 933.7 kg/m^2 kpotato= .498 W/m*k alpha(potato)= .13E-6 m^2/s alpha(water)= 3.357E-6 m^2/s Cpotato= 3.64 kJ/(kg*k) We can't figure out how to find h

At standard temperature and pressure, hydrogen has a density of 0.0899 kg/m^3 . What volume, in...

At standard temperature and pressure, hydrogen has a density of 0.0899 kg/m^3 . What volume, in m^3 , does 3.55 kg of hydrogen occupy at standard temperature and pressure?

Consider a hydrogen plasma on the surface of a compact star at a temperature of t...

Consider a hydrogen plasma on the surface of a compact star at a temperature of t = 105 K. If the discreet energy levels of hydrogen are given by E n = -13.6eV/n 2 (n - 1,2,3...) Determine the fraction of hydrogen in the ionized state n = infinity, compared to the number of atoms in the ground state. Comment on the level of ionization of hydrogen at this temperature.

7.1 Assume that the density of solid water is 920 kg m-3 and that of liquid...

7.1 Assume that the density of solid water is 920 kg m-3 and that of liquid water is 1000 kg m-3. Calculate the change of the melting temperature, T, of ice for the process of changing pressure from 100 kPa to 1850 kPa. Use fusH = 6010 J mol-1 for water. 7.2 At two temperatures, 85 K and 135 K, the vapor pressures of a certain liquid were found to be 540 Torr and 830 Torr, respectively. From this information,...

Air (? = 287 J / kg−?, ?? = 1005 J / kg−?, and ? =...

Air (? = 287 J / kg−?, ?? = 1005 J / kg−?, and ? = 1.4) behaves as an ideal and perfect gas and flows adiabatically and isentropically through a duct at a velocity of 320 m/s with a pressure of 175 kPa and a temperature of 377 K. For these conditions, determine: a) the Mach number (Ma) b) the stagnation temperature (To) c) the stagnation pressure (po) d) the stagnation density (ρo