hB =87²1 The population of rotational levels is related to the intensity of the signals in rotational spectroscopy. Youstronger signals in rotational spectroscopy of the CN molecule, in its ground electronic state,involve the rotational state J = 10, at 300 K. Determine the rotational energy of this state, in J-mol , consideringthe rigid rotor model.-1The energy of each rotational quantum state according to the rigid rotor model isE, =U-J(J+1)The most popular level is given by:kT1J2hcBmax2rotational constant:87²IAdditional Information:23-1Avogadro's constant: 6.02 x 10 mol-23-1Boltzmann constant: 1.38 x 10 J-KPlanck's constant: 6.63 x 10 J-s-34speed of light: 2.99 × 10 m-s 8-1.

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stronger signals in rotational spectroscopy of the CN molecule, in its ground electronic state, involve the rotational state J = 10, at 300 K. Determine the rotational energy of this state, in J•mol , considering the rigid rotor model. The energy of each rotational quantum state according to the rigid rotor model is E, =, (J+1) 21 The most popular level is given by: kT J 2hcB max 2 rotational constant: 87²1 Additional Information: 23 -1 Avogadro's constant: 6.02 × 10 mol -23 -1 Boltzmann constant: 1.38 x 10 J-K Planck's constant: 6.63 × 10 J's -34 speed of light: 2.99 × 10 m's 8. -1.

stronger signals in rotational spectroscopy of the CN molecule, in its ground electronic state, involve the rotational state J = 10, at 300 K. Determine the rotational energy of this state, in J•mol , considering the rigid rotor model. The energy of each rotational quantum state according to the rigid rotor model is E, =, (J+1) 21 The most popular level is given by: kT J 2hcB max 2 rotational constant: 87²1 Additional Information: 23 -1 Avogadro's constant: 6.02 × 10 mol -23 -1 Boltzmann constant: 1.38 x 10 J-K Planck's constant: 6.63 × 10 J's -34 speed of light: 2.99 × 10 m's 8. -1.