VitalSc x 5 someT X D2L DGD S X X Ch08- x D21 QuizZE X D21 2021 L X * Course X D2L 1321 n X DEL MIDTE X (88) T X (88) K x Lf Labflo x 1831a X + C uottawa.brightspace.com/d21/Ims/quizzing/user/attempt/quiz_start_frame_auto.d21?ou=324255&isprv=&drc=0&qi=287209&cfql=0&dnb=0&fromQB=0 . . . Microsoft Office H... N Netflix The #1 Singing Le. Google Translate @ 8 IELTS Registration My Citation Lists |... DW The Daily Wire S Watch FREE Movi. D21 Homepage - Univ.. ASSIGNMENT 2 PART1 X Jiaxi He: Attempt 1 Page 1: Question 15 (1 point) 1 2 Given is 1 mole of oxygen [(1602)] molecules at atmospheric pressure and temperature of 293K. Calculate the /og10 of the number of molecules having their Page 2: speed between 440m/s and (440+1) m/s. Round your answer to the nearest hundredth (i.e. if your answer is 32.567, round it to 32.57). Take Avogadro's Constant 3 4 5 V as 6.022x1023 and the Ideal Gas Constant R=8.31 J/mol*K. Your Answer: 8 10 11 Answer 12 13 14 Question 16 (1 point) Assuming that the escape speed of Earth v=11.350 km/s(*), what is the log10 of the number of molecules in one mole of (14N)2 that will have speed within the interval of 15 16 17 (v-0.5m/s; v+0.5m/s) near the Earth's escape velocity? Round your answer to the nearest hundredth (i.e. if your final answer is -32.576, round it to -32.58). Take the average Earth Air Temperature to be T=289 K. Take Avogadro's Constant as 6.022x1023 and the Ideal Gas Constant R=8.31 J/mol*K. * the actual value of the escape velocity is close to 11.2km/s