Factors Affecting Gravitation Constant: Understanding G in Cavendish Experiment

In summary, the gravitational constant, which has been experimentally determined by Cavendish, is always a constant value. It can be expressed as G=Fd*d/Mm. The constant does not depend on any factors, as it is defined as a constant. The exact value of G cannot be determined, and it is only approximated through measurement. Similarly, other constants, such as resistance, are also independent of factors and have a defined value.
  • #1
DrChem
5
0
gravitation constant has been determined experimentally by cavendish. Its value has been found to be always a constant. The expression for G is given as G=Fd*d/Mm. I would like to know-
on what factors does gravitation constant depend?
 
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  • #2
Hi DrChem, welcome to PF!

I don't understand your question. Something which is constant, by definition, does not depend on any factors.
 
  • #3
I concur. The gravitational constant simply defines to what magnitude mass effects the gravitational force.

By "factors", do you mean to ask how natures form of creating gravity has the specific magnitude of the gravitational constant? Unfortunately, no one really knows.
 
  • #4
if a value is determined experimentally will that not mean that it depends on those terms which were responsible for its determination.
does this mean that any constant is independent of any factor.
 
  • #5
The value is not determined experimentally, it is only approximated by measuring it. We don't (and probably never will) know the exact value of G.

Just like you can measure your mass (or weight). Your mass does have an exact value, but you will never know it exactly, you can only measure it and determine an approximate value for it.
 
  • #6
DrChem said:
if a value is determined experimentally will that not mean that it depends on those terms which were responsible for its determination.
No. For example, consider determining the resistance of an ideal resistor. In order to determine its resistance we must apply a voltage across it and measure the current. Then we can take the ratio of the voltage over the current and we have the experimentally measured resistance. We can apply a different voltage, measure the new current, and get the same ratio. Despite the fact that you need to apply a voltage in order to experimentally determine the resistance we still say that the resistance does not depend on the voltage because we can apply any voltage and measure the same value for resistance.

Mathematically V=IR defines resistance and says that we need a voltage and a current in order to measure resistance. In contrast, dR/dV=0 says that the resistance is constant (wrt V) and therefore its value does not depend on the voltage. Does that help?

DrChem said:
does this mean that any constant is independent of any factor.
Yes, again, that is the definition of the word "constant".
 
Last edited:
  • #7
thank u
 

FAQ: Factors Affecting Gravitation Constant: Understanding G in Cavendish Experiment

What is the gravitation constant (G) and why is it important?

The gravitation constant, denoted by G, is a fundamental constant in physics that represents the strength of the gravitational force between two objects. It plays a crucial role in understanding the force of gravity and its effects on objects in the universe.

How is the value of G determined?

The value of G is determined through experiments, particularly the Cavendish experiment. This experiment involves measuring the deflection of a torsion balance due to the gravitational force between two masses. By measuring the deflection and other variables, the value of G can be calculated.

What are some factors that can affect the value of G?

Factors that can affect the value of G include the location and altitude of the experiment, the materials used in the experiment, and the precision of the measuring equipment. Any external forces acting on the apparatus can also affect the results.

Why is it important to understand the factors affecting G in the Cavendish experiment?

Understanding the factors affecting G in the Cavendish experiment is important because it allows for more accurate and precise measurements of the gravitational constant. It also helps to identify any potential sources of error in the experiment, ensuring that the results are reliable and valid.

How does G affect everyday life?

G may seem like a small and insignificant number, but it has a significant impact on our everyday lives. It is responsible for the force of gravity that keeps us grounded on Earth, and it also plays a role in larger-scale phenomena such as the orbits of planets and the structure of the universe.

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