As the skydiver falls to earth, she experiences positive acceleration due to
Answers
She experiences positive acceleration due to gravity.
She experiences positive acceleration due to gravity.
As the skydiver falls to the Earth, she experiences positive acceleration only due to gravity.
Explanation:
As the skydiver falls to the Earth, she experiences friction in the form of air resistance which tries to slow her down and is proportional to the her velocity. So it cannot have a positive acceleration as it acts in opposite direction to slow her down.
Inertia during skydiving is experienced when we open an parachute, the parachute slows down the speed of are descent hence changing our inertia of motion with a velocity.
Only the Earth's, gravitational field has an positive acceleration as it pulls us towards the Earth, hence increasing our velocity.
Explanation :
When an object moves under the action of gravity. Then the object is said to be moving under free fall.
We know that the acceleration due to gravity is denoted by g and it is equal to [tex]9.8\ m/s^2[/tex].
If the body is accelerating towards the gravity the value of g is positive while when it is accelerating against the gravity it is negative.
As the skydiver falls to Earth, she experiences positive acceleration due to gravity.
So, the correct option is (a) gravity.
Explanation:
A( Gravity) because, When an object falls through space, towards Earth, it experiences positive acceleration due to the force of gravity. The acceleration due to gravity is 9.8m/s2.
It is gravity. As a sky diver falls (ignoring air resistance for now) he increases in acceleration due to gravity, or 9.81m/s^2 (Earth's gravitational acceleration). Inertia is, by definition, a property of matter by which it continues in its existing state of rest or uniform motion in a straight line, unless that state is changed by an external force (credit to Google). However, if the sky diver has some kind of webbing on his suit, a drag force opposite to gravitational weight cancels it, and it moves at a constant drag velocity.
Sorry I got carried away... physicist...
It is gravity. Hope this helps!