Part A Calculate the total rotational kinetic energy the molecules in 1.00 mol of a diatomic gas at 300 K. Express your answer in joules. Krot = Submit Part B VO ΜΕ ΑΣΦ Request Answer J Calculate the moment of inertia of an oxygen molecule (O2) for rotation about either the y- or z-axis shown in Figure 18.18b in the textbook. Treat the molecule as two massive points (representing the oxygen atoms) separated by a distance of 1.21 x 10-10 m. The molar mass of oxygen atoms is 16.0 g/mol. Express your answer in kilogram times meters squared. I= ΤΟ ΑΣΦ " Submit Request Answer Part C ? kg-m² Find the rms angular velocity of rotation of an oxygen molecule about either the y- or z-axis shown in Figure 18.18b in the textbook. Express your answer in radians per second. ΟΙ ΑΣΦ Submit Request Answer ? rad/s

Part A Calculate the total rotational kinetic energy the molecules in 1.00 mol of a diatomic gas at 300 K. Express your answer in joules. Krot = Submit Part B VO ΜΕ ΑΣΦ Request Answer J Calculate the moment of inertia of an oxygen molecule (O2) for rotation about either the y- or z-axis shown in Figure 18.18b in the textbook. Treat the molecule as two massive points (representing the oxygen atoms) separated by a distance of 1.21 x 10-10 m. The molar mass of oxygen atoms is 16.0 g/mol. Express your answer in kilogram times meters squared. I= ΤΟ ΑΣΦ " Submit Request Answer Part C ? kg-m² Find the rms angular velocity of rotation of an oxygen molecule about either the y- or z-axis shown in Figure 18.18b in the textbook. Express your answer in radians per second. ΟΙ ΑΣΦ Submit Request Answer ? rad/s