Final answer:
The temperature in Kelvin on Jupiter is a continuous random variable, as temperature can take on an infinite number of values within a range and is measured rather than counted.
Step-by-step explanation:
The temperature on the planet Jupiter is an example of a continuous random variable. This is because temperature is a measurement and can take on any value within a range. Unlike discrete random variables, which are countable and often involve whole numbers, continuous random variables involve measurements that can be infinitely precise, such as 68°, 71.5°, 80.6°, or even 90.323° Kelvin when measured with a thermometer. Thus, based on these characteristics, the classification for the temperature in Kelvin on Jupiter is continuous.