Final answer:
Using Newton's law of gravitation and the given mass and radius data of the hypothetical planet, the weight of a person who weighs 600 N on Earth would be approximately 96 N on that planet.
Step-by-step explanation:
To determine the gravitational force (weight) on a person on a hypothetical planet, we can use Newton's universal law of gravitation. The weight of a person on Earth is given by:
W = m × g
Where m is the mass of the person and g is the acceleration due to gravity on Earth (9.80 m/s²). For a person weighing 600 N on Earth, we have:
m = W/g => m = 600 N / 9.80 m/s² => m ≈ 61.2 kg
To find the weight of this person on the hypothetical planet, we use:
W' = m × g'
Where g' is the gravitational acceleration on the hypothetical planet. Since the planet's mass is 1/100th of Earth's, and its radius is 1/4th of Earth's, by the law of gravitation:
g' = G × (M'/R'²)
But, with M' = M/100 and R' = R/4, we get:
g' = G × (M/100) / (R/4)² => g' = (G × M)/(R²) × 1/100 × 16
As the gravitational acceleration on Earth is g = (G × M)/(R²), then:
g' = g × 1/100 × 16 => g' = g/6.25
Therefore, the weight of the person on the hypothetical planet would be:
W' = m × g/6.25 => W' = 600 N / 6.25 => W' ≈ 96 N
So the person would weigh approximately 96 newtons on the hypothetical planet.