Car 1, 138600 N

Car 2, 138600 N

Car 1, 17.1 N

Car 2, 17.1 N

The direction the turtle is traveling would change.

The speed of the turtle would decrease.

The speed of the turtle would increase.

The turtle would need to apply less force to maintain its original acceleration.

The turtle would need to apply more force to maintain its original acceleration.

Object 3 had the greatest mass.

All of the objects were made of different material.

Object 4 had the greatest mass

Object 4 had the least mass.

Objects 1, 3, and 5 were made of different material than Objects 2 and 4.

the rider’s pedal force must be less than friction and the force of gravity

the rider’s pedal force must be equal to than friction and the force of gravity

the rider’s pedal force must be greater than friction and the force of gravity

It is impossible to ride up a hill with increasing speed.

The train with the smaller mass will require less time to stop than the train with the larger mass.

The train with the larger mass will have less inertia than the train with the smaller mass.

The train with the larger mass will require less time to stop than the train with the smaller mass.

The train with the smaller mass will take longer to stop than the train with the larger mass.

When the pins are correctly aligned, their mass and acceleration will keep the ball from going into the gutter.

When the bowling ball is rolling down the lane, the mass of the ball on the floor makes the pins become unstable, allowing the acceleration of the ball to knock down the pins.

When the bowling ball is rolled with a force, this accelerates the ball. That acceleration, when combined with the mass of the ball, produces a force that knocks down the pins

When the bowling ball hits the pins, the ball has a mass, so it will exert acceleration on the pins and knock them down.