The speed of light in a vacuum is approximately 299,792 kilometers per second. Therefore, if it takes light 52 seconds to travel the entire planet, the circumference of the planet would be:
52 seconds x 299,792 km/s = 15,589,984 kilometers
So, the planet would have a circumference of approximately 15.59 million kilometers.
If it takes light 52 seconds to travel the entire planet, how big would that planet be?
5 answers
Is that large planetary or star in size?
A planet with a circumference of approximately 15.59 million kilometers would be quite large compared to most planets in our solar system. For comparison, Earth has a circumference of about 40,075 kilometers, so the hypothetical planet would be almost 390 times larger than Earth in terms of circumference.
However, the size of a planet or star is not determined solely by its circumference. Factors such as mass, density, and composition also play a role in determining the size and classification of celestial bodies. More information would be needed to determine if the hypothetical planet is more similar in size to a large planet or a star.
However, the size of a planet or star is not determined solely by its circumference. Factors such as mass, density, and composition also play a role in determining the size and classification of celestial bodies. More information would be needed to determine if the hypothetical planet is more similar in size to a large planet or a star.
Is it Jupiter in size
Jupiter, the largest planet in our solar system, has a circumference of approximately 439,264 kilometers. Therefore, a planet with a circumference of 15.59 million kilometers would be significantly larger than Jupiter. In fact, the hypothetical planet would be about 35 times larger than Jupiter in terms of circumference.
So, the planet in question would be much larger than Jupiter in size.
So, the planet in question would be much larger than Jupiter in size.