Calculate the rms (average) speed of N2 atoms or molecules at 118 °C. Use R = 8.314 kg-m²/K-s2-mol for the value of the gas constant. O a) The average speed of a Nz atom/molecule at 118 °C is 348 m/s. O b) The average speed of a Nz atom/molecule at 118 °C is 10.3 m/s. O c) The average speed of a N2 atom/molecule at 118 °C is 265 m/s. O d) The average speed of a N2 atom/molecule at 118 °C is 590. m/s. O e) The average speed of a N2 atom/molecule at 118 °C is 18.7 m/s.
Calculate the rms (average) speed of N2 atoms or molecules at 118 °C. Use R = 8.314 kg-m²/K-s2-mol for the value of the gas constant. O a) The average speed of a Nz atom/molecule at 118 °C is 348 m/s. O b) The average speed of a Nz atom/molecule at 118 °C is 10.3 m/s. O c) The average speed of a N2 atom/molecule at 118 °C is 265 m/s. O d) The average speed of a N2 atom/molecule at 118 °C is 590. m/s. O e) The average speed of a N2 atom/molecule at 118 °C is 18.7 m/s.
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Transcribed Image Text:Calculate the rms (average) speed of N2 atoms or molecules at 118 °C. Use R = 8.314 kg-m²/K-s2-mol for the value of the gas constant.
O a) The average speed of a Nz atom/molecule at 118 °C is 348 m/s.
O b) The average speed of a Nz atom/molecule at 118 °C is 10.3 m/s.
O c) The average speed of a N2 atom/molecule at 118 °C is 265 m/s.
O d) The average speed of a N2 atom/molecule at 118 °C is 590. m/s.
O e) The average speed of a N2 atom/molecule at 118 °C is 18.7 m/s.
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