Determining Temperature for Average Squared Velocity
Внимание!! Математические вычисления могут быть не точны!
To determine the temperature at which the average squared velocity of oxygen molecules is equal to the average squared velocity of nitrogen molecules at a temperature of 100K, we can use the root-mean-square velocity formula:T = √(m2/m1)T1
Where T is the temperature we want to find, m1 and m2 are the molar masses of nitrogen and oxygen respectively, and T1 is the given temperature of 100K.
Firstly, we need to calculate the molar mass of each gas. The molar mass of oxygen is approximately 32 gmol-1 and the molar mass of nitrogen is approximately 28 gmol-1.
Substituting these values into the formula, we get:
T = √(32/28)100 = √(8/7)100 = 106.5K.
Therefore, the temperature at which the average squared velocity of oxygen molecules is equal to the average squared velocity of nitrogen molecules at a temperature of 100K is approximately 106.5K.
In conclusion, be careful with your gases, as they can really heat things up! Good luck!
Внимание! Используйте решение от нейросети аккуратно, т.к они могут быть не точными. Обязательно проверьте ответы самостоятельно! Особенно это касается математических вычислений
