Question

which sample of water contains particles having the highest average kinetic energy?
a. 25 ml of water at 95°c
b. 45 ml of water at 75°c
c. 75 ml of water at 75°c
d. 95 ml of water at 25°c
e. 15 ml of water at 30°c - answer: a. 25 ml of water at 95°c
a higher temperature means that there is a higher kinetic energy, and this option has the highest temperature.

a liquids freezing point is -38°c and its boiling point is 357°c. what is the number of kelvin between the boiling point and the freezing point of the liquid?
a. 319
b. 395
c. 592
d. 668
e. 235 - answer: b. 395
-38°c = 235k (add 273 to get kelvin) and 357°c = 630k. 630 - 235 = 395

Explanation:

First Question (Water Sample with Highest Kinetic Energy)

The average kinetic energy of particles in a substance is directly related to temperature (not volume). Higher temperature means higher average kinetic energy. Among the options, 95°C (option A) is the highest temperature, so its particles have the highest average kinetic energy.

Step1: Convert freezing point to Kelvin

The formula to convert Celsius to Kelvin is $K = °C + 273$. For the freezing point ($-38°C$), we calculate $K_{freezing} = -38 + 273 = 235\ K$.

Step2: Convert boiling point to Kelvin

For the boiling point ($357°C$), we calculate $K_{boiling} = 357 + 273 = 630\ K$.

Step3: Find the difference in Kelvin

Subtract the freezing point Kelvin from the boiling point Kelvin: $630 - 235 = 395$.

Answer:

A. 25 mL of water at 95°C

Second Question (Kelvin Difference Between Boiling and Freezing Points)