3 Copy edited. Introduced GTR.
source | link

Gravity has a classical description called general theory of relativity (GTR), and it adequately describes the "force" of gravity as a consequence of space-time geometry.

However, a curved space around the gravitational body is an approximate description to a more precise quantum theory of gravity that will eventually replace GTR as it can be applied to micro or macroscopic systems. GTR replaced the Newtonian paradigm, but the description of gravity as a "pseudo force" takes it a step back. No one will ever say that a sky diver died because his parachute didn't deploy in that curved space.

For that matter the view of someone falling from the sky is a straight path and again fails to explain even Newton's gravitational constant. Curves take longer to traverse than straight lines and light being gravitationally lensed proves this. I have a lot more to say about this topoictopic, but I will keep it to conventional means.

Gravity has a classical description called general theory of relativity (GTR), and it adequately describes the "force" of gravity as a consequence of space-time geometry.

However, a curved space around the gravitational body is an approximate description to a more precise quantum theory of gravity that will eventually replace GTR as it can be applied to micro or macroscopic systems. GTR replaced the Newtonian paradigm, but the description of gravity as a "pseudo force" takes it a step back. No one will ever say that a sky diver died because his parachute didn't deploy in that curved space.

For that matter the view of someone falling from the sky is a straight path and again fails to explain even Newton's gravitational constant. Curves take longer to traverse than straight lines and light being gravitationally lensed proves this. I have a lot more to say about this topoic, but I will keep it to conventional means.

Gravity has a classical description called general theory of relativity (GTR), and it adequately describes the "force" of gravity as a consequence of space-time geometry.

However, a curved space around the gravitational body is an approximate description to a more precise quantum theory of gravity that will eventually replace GTR as it can be applied to micro or macroscopic systems. GTR replaced the Newtonian paradigm, but the description of gravity as a "pseudo force" takes it a step back. No one will ever say that a sky diver died because his parachute didn't deploy in that curved space.

For that matter the view of someone falling from the sky is a straight path and again fails to explain even Newton's gravitational constant. Curves take longer to traverse than straight lines and light being gravitationally lensed proves this. I have a lot more to say about this topic, but I will keep it to conventional means.

2 Copy edited. Introduced GTR.
source | link

Gravity has a classical description called GTRgeneral theory of relativity (GTR), and it adequately describes the "force" of gravity as a consequence of space-time geometry. 

However, a curved space around the gravitational body is an approximate description to a more precise quantum theory of gravity that will eventually replace GTR as it can be applied to micro or macroscopic systems. GTR replaced the Newtonian paradigm, but the description of gravity as a "pseudo force" takes it a step back. No one will ever say that a sky diver died because his chute didntparachute didn't deploy in that curved space. 

For that matter the view of someone falling from the sky is a straight path and again fails to explain even Newton's Gravitational Constantgravitational constant. Curves take longer to traverse than straight lines and light being gravitationally lensed proves this. I have alota lot more to say about this topoic, but I will keep it to conventional means.

Gravity has a classical description called GTR and it adequately describes the "force" of gravity as a consequence of space-time geometry. However, a curved space around the gravitational body is an approximate description to a more precise quantum theory of gravity that will eventually replace GTR as it can be applied to micro or macroscopic systems. GTR replaced the Newtonian paradigm but the description of gravity as a "pseudo force" takes it a step back. No one will ever say that sky diver died because his chute didnt deploy in that curved space. For that matter the view of someone falling from the sky is a straight path and again fails to explain even Newton's Gravitational Constant. Curves take longer to traverse than straight lines and light being gravitationally lensed proves this. I have alot more to say about this topoic but will keep it to conventional means.

Gravity has a classical description called general theory of relativity (GTR), and it adequately describes the "force" of gravity as a consequence of space-time geometry. 

However, a curved space around the gravitational body is an approximate description to a more precise quantum theory of gravity that will eventually replace GTR as it can be applied to micro or macroscopic systems. GTR replaced the Newtonian paradigm, but the description of gravity as a "pseudo force" takes it a step back. No one will ever say that a sky diver died because his parachute didn't deploy in that curved space. 

For that matter the view of someone falling from the sky is a straight path and again fails to explain even Newton's gravitational constant. Curves take longer to traverse than straight lines and light being gravitationally lensed proves this. I have a lot more to say about this topoic, but I will keep it to conventional means.

1
source | link

Gravity has a classical description called GTR and it adequately describes the "force" of gravity as a consequence of space-time geometry. However, a curved space around the gravitational body is an approximate description to a more precise quantum theory of gravity that will eventually replace GTR as it can be applied to micro or macroscopic systems. GTR replaced the Newtonian paradigm but the description of gravity as a "pseudo force" takes it a step back. No one will ever say that sky diver died because his chute didnt deploy in that curved space. For that matter the view of someone falling from the sky is a straight path and again fails to explain even Newton's Gravitational Constant. Curves take longer to traverse than straight lines and light being gravitationally lensed proves this. I have alot more to say about this topoic but will keep it to conventional means.