A nanoparticle containing 6 atoms can be modeled approximately as an Einstein solid of 18 independent oscillators. The evenly spaced energy levels of each oscillator are 5 × 10-21 J apart. Use k = 1.4 × 10-23 J/K. Part 1 (a) When the nanoparticle's energy is in the range 5 x 5x 10-21 J to 6 x 5x 10-21 J, what is the approximate temperature? (In order to keep precision for calculating the heat capacity, give the result to the nearest tenth of a degree.) i Save for Later K Using multiple attempts will impact your score. 40% score reduction after attempt 3 Attempts: 0 of 6 used Submit Answer Part 2 (b) When the nanoparticle's energy is in the range 8 x 5x 10 21 J to 9 x 5x 10-21 J, what is the approximate temperature? (In order to keep precision for calculating the heat capacity, give the result to the nearest tenth of a degree.) Save for Later K Attempts: 0 of 6 used Submit Answer

A nanoparticle containing 6 atoms can be modeled approximately as an Einstein solid of 18 independent oscillators. The evenly spaced energy levels of each oscillator are 5 × 10-21 J apart. Use k = 1.4 × 10-23 J/K. Part 1 (a) When the nanoparticle's energy is in the range 5 x 5x 10-21 J to 6 x 5x 10-21 J, what is the approximate temperature? (In order to keep precision for calculating the heat capacity, give the result to the nearest tenth of a degree.) i Save for Later K Using multiple attempts will impact your score. 40% score reduction after attempt 3 Attempts: 0 of 6 used Submit Answer Part 2 (b) When the nanoparticle's energy is in the range 8 x 5x 10 21 J to 9 x 5x 10-21 J, what is the approximate temperature? (In order to keep precision for calculating the heat capacity, give the result to the nearest tenth of a degree.) Save for Later K Attempts: 0 of 6 used Submit Answer