To calculate the number of atoms present in the unit cell of a monoatomic element for different types of cubic lattices, we will analyze each structure step by step.(i) Simple Cubic Lattice1. Identify the positio
Each substance has its own specific heat capacity which is the measurement of its ability to accept energy without changing temperature. Some substances (such as water) can take in a great deal of energy with minimal temperature change, while others (such as copper) will heat up quickly...
Calculate the work done by the gas in the processes represented by the pathsADBandACB, as shown below. Estimation of Thermodynamic Work Done: The thermodynamic work done by an ideal gas in a thermodynamic cycle can be obtained with the help of the thermodynamic pro...
To calculate the number of molecules in a given volume of a perfect gas at a specific temperature and pressure, we can follow these steps: Step 1: Write down the given values- Volume (V) = 2×10−6m3- Temperature (T) = 27∘C=300K- Pressure (P) = 0.01mmHg Step 2: Convert pre...
One mole of a monoatomic ideal gas initially at a pressure of 2.00 bar and a temperature of 273 K is taken to a final pressure of 4.00 bar by a reversible path defined by P/V=constant, the value of ΔU/w for this process is : View Solution Calculate Q and w for the isothermal ...
2.05 moles of a monotomic ideal gas undergoes the process shown in the diagram below, where Pi= 6.79 X 10^4 Pa, Pf= 1.34 X 10^5 Pa, and delta T= 27.5 K. 1. calculate the work done by the gas. 2. calcu Find the amount of work done to inc...
What is the final temperature of the system (C_V = 5/2 R for this gas)? Without doing calculations, w You have containers of pure H_2 and He at 298 K and 1 atm pressure. Calculate Delta G_{mixing} relative to th...
The work done by one mole of a mono-atomic ideal gas in expanding adiabatically is 825 J. The initial temperature and volume of the gas are 393 K and 0.100 m^3. Obtain (a) the final temperature and (b 1. Calculate the work done during the ...
What is the final temperature of the gas? A sample of a monatomic ideal gas at 1.00 atm and 25 degC expands adiabatically and reversibly from 5.00 L to 12.5 L. Calculate the final temperature and pressure of the gas, the work associated...
where λi is the ionic molal conductivity, mi is the speciated molality of the ith ion, λ0 and A are temperature-dependent coefficients, and B is an empirical constant. For the estimation of I on the basis of κ25 (conductivity standardized to 25 °C), and hereafter, for the sake of...