select all that apply\nwhich statements are true about g in the equation?\n$f = g\\frac{m_1m_2}{d^2}$\n□ g…

select all that apply\nwhich statements are true about g in the equation?\n$f = g\\frac{m_1m_2}{d^2}$\n□ g is the same value everywhere in the universe.\n□ g is the acceleration of gravity.\n□ g is a measurement of acceleration.\n□ g is essentially a conversion factor.\n□ g has the value $6.67×10^{-11}\\frac{n\\cdot m^2}{kg^2}$.

select all that apply\nwhich statements are true about g in the equation?\n$f = g\\frac{m_1m_2}{d^2}$\n□ g is the same value everywhere in the universe.\n□ g is the acceleration of gravity.\n□ g is a measurement of acceleration.\n□ g is essentially a conversion factor.\n□ g has the value $6.67×10^{-11}\\frac{n\\cdot m^2}{kg^2}$.

Answer

Brief Explanations:

The equation $F = G\frac{m_1m_2}{d^2}$ is Newton's law of universal gravitation. $G$ is the gravitational - constant. It has the same value everywhere in the universe and is a conversion factor that allows us to calculate the gravitational force between two masses. Its value is approximately $6.67\times10^{- 11}\frac{N\cdot m^2}{kg^2}$. The acceleration of gravity $g$ is different from $G$. $G$ is not a measurement of acceleration.

Answer:

  • G is the same value everywhere in the universe.
  • G is essentially a conversion factor.
  • G has the value $6.67\times10^{-11}\frac{N\cdot m^2}{kg^2}$.