find relationship between ‘g’ and ‘g’ during a free-fall what is the weight of a body. give reason for the answer
Answers
Explanation:
The acceleration on an object due to the gravity of any massive body is represented by g (small g). The force of attraction between any two unit masses separated by unit distance is called universal gravitational constant denoted by G(capital g). The relation between G and g is not proportional. That means they are independent entities.
G and g
In physics, G and g can be related mathematically as –
g=\frac{GM}{R^{2}}
Where,
g is the acceleration due to the gravity of any massive body measured in m/s2.
G is the universal gravitational constant measured in Nm2/kg2.
R is the radius of the massive body measured in km.
M is the mass of the massive body measured in Kg
G and g relation
Although there exists a formula to express the relation between g and G in physics. There is no correlation between acceleration due to gravity and universal gravitation constant, as the value of G is constant. The value of G is constant at any point in this universe. G and g are not dependent on each other.
What is G and g?
The G and g are distinct entities in physics. Below is the table of the difference between G and g.
g Formula
According to the universal law of gravit,
F=GMmR2 ————(1)
From Newton’s second law of motion we can write –
g=Fm ———–(2)
Substituting equation (1) in (2) we get-
g=GMmR2m
Thus, we arrive at the g formula in physics as –
⇒g=GMR2
Hope you understood the relation and conversion between G and g along with formula, definition, difference, and values.