Up Learn – A Level physics (AQA) – GRAVITATIONAL FORCE AND FIELD
Gravitational Field Strength
What do we mean by gravitational field strength?
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More videos on Gravitational Force and Field:
Introduction to Gravitational Fields (free trial)
Calculating Gravitational Field Strength (free trial)
Gravitational Field around the Earth (free trial)
Gravitational Vector Fields (free trial)
Comparing Gravitational Fields (free trial)
Combining Gravitational Fields
Calculating Combined Gravitational Fields
Gravitational Force and Field
2. Reminder About Gravity (free trial)
3. Factors that Affect Gravitational Force 1 – Mass (free trial)
4. Factors that Affect Gravitational Force 1 – Distance (free trial)
5. Article – Distances Between Masses (free trial)
6. Point Masses (free trial)
7. Newton’s Equation for Gravity (free trial)
2. Gravitational Field Strength
3. Test Masses (free trial)
4. Calculating Gravitational Field Strength (free trial)
5. Gravitational Field around the Earth (free trial)
6. Gravitational Vector Fields (free trial)
7. Gravitational Field Lines
8. Comparing Gravitational Fields (free trial)
9. Combining Gravitational Fields
10. Calculating Combined Gravitational Fields
11. Finding Points with No Gravitation Field (free trial)
12. Graphs of Gravitational Field
2. Changes in Gravitational Potential Energy in a Uniform Field (free trial)
3. Gravitational Potential Energy – Work Done (free trial)
4. Gravitational Potential Energy at Infinity (free trial)
5. Absolute Gravitational Potential Energy (free trial)
6. Combining Gravitational Potential Energies (free trial)
7. Moving a Mass in a Gravitational Field (free trial)
8. Two Equations for GPE (free trial)
9. Deriving Two Equations for Ep – Article (free trial)
10. Escape Velocity (free trial)
2. The Gravitational Potential (free trial)
3. Values of Gravitational Potential (free trial)
4. Gravitational Potential Difference (free trial)
5. Work Done and Potential Difference (free trial)
6. Equipotentials Surface Around a Point Mass (free trial)
7. Equipotentials and Field Lines (free trial)
8. Work Done Along Equipotentials (free trial)
9. Finding Gradients of Tangents (Recap) – Article (free trial)
10. Potential Graphs and Potential Gradient (free trial)
11. Gravitational Fiend Strength and Graphs of Gravitational Potential (free trial)
12. Finding Areas Under Curves – Article (free trial)
13. Gravitational Potential and Graphs of Gravitational Field Strength (free trial)
14. Worked Example – Finding Potential Difference from a Field Strength Graph – Article (free trial)
15. Equipotentials and Potential Gradient (free trial)
16. Combining Potentials (free trial)
17. Combining Potential Graphs (free trial)
2. Recap of Circular Motion – Article (free trial)
3. Kepler’s Third Law (free trial)
4. Proving Kepler’s Third Law (free trial)
5. Recap of Log Laws – Article (free trial)
6. Graphing Kepler’s Third Law (free trial)
7. Graphing Kepler’s Third Law – Article (free trial)
8. What are Satellites? (free trial)
9. Geostationary Satellites (free trial)
10. Polar and Geosynchronous Orbits – Article (free trial)
11. Energy of Orbiting Satellites (free trial)
12. Escape Velocity for Satellites (free trial)
We’ve seen that all masses experience a gravitational force towards all other masses.
The magnitude of the gravitational force is given by this equation.
And the direction of that force is always towards the other mass.
Now, another way of understanding gravity is to say that all masses have a gravitational field around them…
Which, as we saw in the Introduction to Fields, is…
A gravitational field is a region where any mass experiences a non-contact force.
For a spherical mass like the Earth, we’ve already seen that the gravitational field lines look like this.
And the closer together the lines are at a particular point, the stronger the field is at that point.
But what do we mean by “field strength” or “the strength of the field”?
Well, gravitational field strength is defined as gravitational force per unit mass, at a specific point in a gravitational field.
And it’s a vector…
The direction of the gravitational field strength vector is the same as the direction of the gravitational force vector. They both point towards the source mass.
So, if we take a mass like a satellite and move it to a point with higher gravitational field strength…we know that the gravitational force that the satellite experiences will increase.
And what if we replace the satellite with a more massive object, like an asteroid?
Well, we know that the asteroid will experience…
If we replace the satellite with a more massive object, like an asteroid, we know that the asteroid will experience a larger gravitational force than the satellite.
However, field strength is force per unit mass, so the field strength doesn’t change!
The gravitational field strength around a mass like a planet depends on the planet’s mass…
But not on the mass of the object that’s in the gravitational field.
So, in summary…
All masses are surrounded by a region where other masses experience a non-contact force.
This region is called a…
This region is called a gravitational field.
And the gravitational field strength is defined as the…
The gravitational field strength is defined as the gravitational force per unit mass that a mass would experience in a gravitational field.