How to calculate gravitational force?

AI Thread Summary
The discussion focuses on calculating gravitational force using the formula F = G(m1*m2)/r^2, where G is the gravitational constant (6.67E-11 m3 s-2 kg-1). Participants clarify that G's units, N m^2 kg^-2, represent force in Newtons, distance in meters, and mass in kilograms. An example is provided, calculating the gravitational force between two objects with masses of 10 kg and 25 kg separated by 10 meters, resulting in a force of approximately 1.668 x 10^-9 N. The conversation emphasizes understanding the components of the formula and the significance of the gravitational constant. Overall, the thread successfully aids in grasping the concept of gravitational force calculation.
mdmaaz
Messages
42
Reaction score
0
What is the formula for calculating the gravitational force between two objects of a given mass? It's a really simple question. But I'm just a thirteen year old who desperately wants to know.
 
Physics news on Phys.org
Thanks, I can understand gravity so much more better now!
 
What do the letters in the formula stand for? Would really appreciate it if you tell me.
 
Gravitational Constatant

I know the formula for calculating the gravitational force between two masses. In the formula "G" means gravitational constant. The gravitational constant is 6.67E-11 m3 s-2 kg-1. But what does "6.67E-11 m3 s-2 kg-1 mean"?
I would really appreciate it if give me an example of calculating gravitational force between two objects.
 


mdmaaz said:
I know the formula for calculating the gravitational force between two masses. In the formula "G" means gravitational constant. The gravitational constant is 6.67E-11 m3 s-2 kg-1. But what does "6.67E-11 m3 s-2 kg-1 mean"?
I would really appreciate it if give me an example of calculating gravitational force between two objects.

Hey, mdmaaz.

The units of the universal gravitational constant G, N m^2 kg^-2, N is shorthand for Newtons, the measure of force. m is for metre, kg is for kilogram. The units can sort of be thought as being the way they are due to the units of the other variables in the equation.

F(gravity) is the force due to the gravitation attraction between the two object. G is the universal gravitational constant. m1 and m2 are the masses of the two objects between which the gravity is acting (for example, between the Earth and your body). r is the distance separation between the two objects (notice that Earth pulls on you much more then saturn does, despite saturn's much larger mass!) .

Here is a quick example of finding the gravitational force between two objects.

Let's say that object 1 has mass m1=10kg and that object 2 has mass m2=25kg. If they are 10m apart, then the force is given by (from hyperphysics)
gravf.gif


F=(6.67*10^-11*10*25)/10^2

F=1.668*10^(-9)N
 
Thanks "Disconnected"! You're awesome dude. I can finally understand how to caclulate gravitational force.
 

Similar threads

I Gravitational analog of electromagnetic force
Replies
11
Views
5K
B Difference between Gravitational Force and Gravity?
Replies
2
Views
2K
I Experimentally measure gravitational force
Replies
3
Views
1K
I Is gravitational prospecting pseudoscience?
Replies
8
Views
2K
B Why gravitational force is attractive? (and why dark matter is repulsive?)
Replies
10
Views
3K
I Sun gravitational lensing forces
Replies
11
Views
1K
B Gravitational field strength calculation
Replies
3
Views
4K
B Why exactly do we need the gravitational constant?
Replies
11
Views
3K
I Is this analogy between Magnetic Force and Gravitational Force accurate in helping to understand what contributes more to a stronger magnetic force?
Replies
11
Views
2K
I Cavendish balance and mass of objects
Replies
6
Views
1K

Hot Threads

Recent Insights

Back
Top