According to Newton's Second Law, if the net force $F_{net}$ on an object is held constant, how does increasing the mass $m$ affect the acceleration $a$?

According to Newton's laws, if the net force on an object is balanced (i.e., $\sum F=0$), what is the resulting acceleration of the object?

In Newtonian mechanics, which force is responsible for producing the acceleration of an object according to Newton's second law?

An object has two horizontal forces acting in opposite directions: $12N$ to the right and $7N$ to the left. Taking right as the positive direction, what is the net force on the object?

According to Newton’s second law, how does an object’s acceleration depend on the net force acting on it (for constant mass $m$)?

According to Newton's first law, what does the law describe?

A $100\mathrm{kg}$ rock is in space, far from any planets, stars or black holes. It is moving in a straight line at a constant $\mathrm{10,000}\mathrm{m}/\mathrm{s}$ relative to our sun. What total force is required to keep it moving that fast?

An elevator is going up at a constant speed in a very tall building. Assume the only forces acting on the elevator are a downward weight force and the force of a cable pulling the elevator up. Ignore air resistance and friction. How does the magnitude of the weight force compare to the magnitude of the force of the cable?

A $10\mathrm{N}$ horizontal force is applied to a $10\mathrm{kg}$ box causing it to speed up. The force of kinetic friction is $5\mathrm{N}$. Which choice best describes the subsequent motion of the box?