A student collects data during an investigation about inertia and acceleration. If the force acting on the objects is constant, which statement about inertia and acceleration is supported by the data? (1 point) Responses An object with a higher mass has less inertia which causes it to speed up more quickly. An object with a higher mass has less inertia which causes it to speed up more quickly. An object with less mass has less inertia which causes it to speed up less quickly. An object with less mass has less inertia
An object with less mass has less inertia which causes it to speed up less quickly.
The picture shows a physics lab set up. Why does the disc fall straight down into the glass when we quickly pull the index card away from the glass in a horizontal direction? (1 point) Responses equilibrium equilibrium static friction static friction kinetic friction kinetic friction inertia
inertia
is that correct? :D
Apologies for the incorrect response. The correct answer is "inertia". When the index card is quickly pulled away from the glass, the disc tends to remain at rest due to its inertia or resistance to changes in motion. As a result, the disc falls straight down into the glass instead of following the horizontal motion of the card.
A student is riding the school bus. The bus stops as the driver applies the brakes. Which of these statements best describes this situation?(1 point) Responses The bus is gaining energy because of friction. The bus is gaining energy because of friction. The school bus does not lose or gain kinetic energy. The school bus does not lose or gain kinetic energy. A force is changing the motion of the bus. A force is changing the motion of the bus.
A force is changing the motion of the bus.
A pitcher throws a baseball to the catcher. The ball's path begins as a straight line, and then its patch curves toward the ground. Which two forces are acting on the baseball?(1 point) Responses electricity and friction electricity and friction gravity and friction gravity and friction inertia and magnetism inertia and magnetism nuclear and inertia
