How Do We Calculate Mercury's Gravitational Field Intensity?

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SUMMARY

The gravitational field intensity on Mercury can be calculated using the formula F = Gm1m2 / d^2, where G is the universal gravitational constant (6.67 x 10^-11 Nm^2/kg^2). Mercury's mass is 3.28 x 10^23 kg and its radius is 2.57 x 10^6 m. The gravitational field intensity is expressed in N/kg, which is distinct from gravitational force. Understanding the distinction between little g (gravitational field intensity) and big G (universal gravitational constant) is crucial for accurate calculations.

PREREQUISITES
  • Understanding of gravitational field intensity and gravitational force
  • Familiarity with the universal gravitational constant (G)
  • Basic knowledge of physics equations related to gravity
  • Ability to manipulate units in physics calculations
NEXT STEPS
  • Research the application of the formula F = Gm1m2 / d^2 in different celestial contexts
  • Learn about the differences between gravitational field intensity and gravitational force
  • Explore the implications of gravitational field intensity on planetary bodies
  • Investigate how to calculate gravitational field intensity for other planets using their mass and radius
USEFUL FOR

Students of physics, astrophysicists, and anyone interested in gravitational calculations and planetary science.

NeomiXD
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On Earth, the gravitational field intensity is 9.8 N/kg. Mercury has a mass of 3.28 x 1023 kg and a radius of 2.57 x 106 m. Calculate the gravitational field intensity on Mercury in N/kg.

Given:

g = 9.8 N/kg (on earth)
m = 3.28 x 10^23 Kg
d = 2.57 x 10^6m

Required:

g = ?

Solution:

?

I was just wondering what given would be used and what equation would you use to solve this question; F = Gm1m2 / d^2 or F = mg.
 
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NeomiXD said:
I was just wondering what given would be used and what equation would you use to solve this question; F = Gm1m2 / d^2 or F = mg.


What is the definition of little g? What is the definition of big G? (I don't mean the value. I mean the definition from a conceptual sense.)

One of those two is universally applicable. The other is not. That should give you a clue as to which equation to use.
 
G in the universal gravitational constant (6.67 x 10^-11 Nm^2/kg^2). So, I have to F = Gm1m2 / d^2 to solve this question...but isn't m2 (mass of Earth) not given?
 
Why do you care about the mass of the Earth? Where are you performing this calculation?

Consider the units involved. The problem asks for the gravitational field intensity, which has units of N/kg. Is this the same thing as gravitational force? What are the units of gravitational force? What do you need to do to make the units match?
 

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