A stunt woman of mass mmm falls into a net during the filming of an action movie. She experiences a normal force magnitude {F_n}F
n
​
F, start subscript, n, end subscript while touching the net.
Which of the following statements is correct for the acceleration magnitude {a}aa of the stunt woman?
Consider upward as the positive direction.

The correct expression for the acceleration magnitude {a}aa of the stunt woman from from the above given task is: m(a + g).The correct option is b.The complete image is attached.Why the acceleration magnitude {a}aa of the stunt woman N is m(a + g)It follows that one of the Newton law motion describes a system that in every action, there is equal and opposite reaction. In order words, no reaction will occur without an action. That being said, the stunt woman from the above given task possesses a mass m which will ultimately be falling under acceleration due to gravity. This means that the acceleration, a by the process equals gravitational acceleration, g under standard conditions. It is on this premise that her acceleration magnitude {a}aa is given by m(a + g).In conclusion, we now know from the detailed explanation and image above that the magnitude of the woman is m(a + g).Complete question:A stunt woman of mass m falls into a net during the filming of an action movie. She experiences a normal force magnitude {F_n}F nF, start subscript, n, end subscript while touching the net.Which of the following statements is correct for the acceleration magnitude {a}aa of the stunt woman?Consider upward as the positive directiona. m(a - g).b. m(a + g).c. m(a + g + m)d. None of the above.Read more on mass:https://brainly.com/question/25959744#SPJ1