Answer:
The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.
Step-by-step explanation:
The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. So, in the model, Pluto’s orbit would have a much larger radius than Earth’s orbit.The distance between the Sun and Earth is 149,600,000 kilometers, and the distance between the Sun and Pluto is 5.9 billion kilometers. The gravitational pull decreases with an increase in distance. So, the gravitational pull of the Sun on Pluto is much less than its pull on Earth. gravitational pull of the Sun on Pluto is much less than its pull on Earth.