The correct claim that is supported by the data is:
c) An object with a higher mass has more inertia which causes it to speed up less quickly.
Assuming the force acting on the objects is constant, which claim about inertia and acceleration is supported by the data?
a
An object with a lower mass has less inertia which causes it to speed up less quickly.
b
An object with a lower mass has more inertia which causes it to speed up more quickly.
c
An object with a higher mass has more inertia which causes it to speed up less quickly.
d
An object with a higher mass has less inertia which causes it to speed up more quickly.
c) An object with a higher mass has more inertia which causes it to speed up less quickly.
d) An object with a higher mass has less inertia which causes it to speed up more quickly.
This is evident from the fact that the objects with higher masses have higher accelerations compared to the objects with lower masses.
a
The force of inertia on you balances the force from the motion of the bus.
b
Inertia prevents the force of the bus from acting on you.
c
The bus moves forward, while inertia keeps you in place.
d
The motion of the bus creates an unbalanced backward force on you.
c) The bus moves forward, while inertia keeps you in place.
When the bus starts moving forward, your body tends to stay at rest due to the inertia principle. As a result, you appear to move backward in relation to the bus.
b) Inertia prevents the force of the bus from acting on you.
Inertia is the tendency of an object to resist changes in its motion. When the bus starts moving forward, your body, due to inertia, tends to stay in its stationary position. As a result, it appears as though you are moving backward relative to the bus. In this case, inertia prevents the force of the bus from immediately acting on your body.
When the index card is quickly pulled away from the glass in a horizontal direction, why does the disk fall straight down into the glass?
a
kinetic friction
b
static friction
c
equilibrium
d
inertia
b) static friction
When the index card is quickly pulled away from the glass, the initial contact between the glass and the disk is due to static friction. Static friction allows the disk to stay in place on the card until it is suddenly removed. Once the card is removed, the static friction is no longer present, and the disk falls straight down into the glass due to the force of gravity.
d) inertia
When the index card is quickly pulled away from the glass, the disk falls straight down into the glass due to the inertia of the disk. Inertia is the tendency of an object to resist changes in its state of motion. The disk, initially at rest on the card, remains at rest due to its inertia. When the card is suddenly moved, the disk maintains its state of rest (due to its inertia) and falls straight down into the glass.