Calculate Rotational Energy of Diatomic Molecule 1H81Br at 382 K

How can we calculate the rotational energy of a diatomic molecule such as 1H81Br at 382 K?

Have you ever wondered how to calculate the rotational energy of a diatomic molecule like 1H81Br at a specific temperature?

Rotational energy of a diatomic molecule such as 1H81Br at 382 K can be calculated using the following equation:

Formula for Rotational Energy:

E_rot = J(J+1) * h^2 / (8 * pi^2 * I)

where J is the quantum number, h is Planck's constant, pi is the mathematical constant pi, and I is the moment of inertia of the molecule.

The moment of inertia can be calculated using the formula:

I = mu * r^2

where mu is the reduced mass of the molecule and r is the bond length.

The quantity Erot/kBT represents the rotational energy of the molecule relative to the thermal energy at a given temperature, which can be calculated using the equation:

Erot/kBT = E_rot / (k_B * T)

where k_B is the Boltzmann constant and T is the temperature in Kelvin.

In order to calculate the rotational energy of 1H81Br at 382 K, we first need to determine the reduced mass of the molecule. The reduced mass can be calculated using the masses of hydrogen and bromine. The atomic masses of hydrogen and bromine are approximately 1.008 u and 79.904 u, respectively.

By converting these values to kilograms and applying the formula for reduced mass, we can find:

mu = 1.629 * 10^-26 kg

Next, we calculate the moment of inertia of the molecule using the bond length and reduced mass. The moment of inertia is found to be 1.131 * 10^-46 kg m^2.

By plugging in the values for J = 5, 10, and 20 into the equation for rotational energy, we can calculate the values of Erot/kBT for 1H81Br at 382 K as 2.47, 9.88, and 39.71, respectively.

These calculations provide insights into the rotational energy of a diatomic molecule like 1H81Br at a specific temperature, allowing for a better understanding of molecular behavior.

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