A Cadillac with mass 3 m_o and a Volkswagen with mass m_o go around the same unbanked circular curve on the freeway. Bumper to bumper they go with the same speed v_o. The centripetal acceleration of the VW is a_o and the centripetal force acting on it is F_o.

The centripetal acceleration of the Cadillac is ___ a_o.

more than

less than

equal to

incomparable with

A Cadillac with mass 3 m_o and a Volkswagen with mass m_o go around the same unbanked circular curve on the freeway. Bumper to bumper they go with the same speed v_o. The centripetal acceleration of the VW is a_o and the centripetal force acting on it is F_o.

The centripetal force acting on the Cadillac is ___ F_o.

less than

more than

equal to

incomparable with

A Cadillac with mass 3 m_o and a Volkswagen with mass m_o go around the same unbanked circular curve on the freeway. Bumper to bumper they go with the same speed v_o. The centripetal acceleration of the VW is a_o and the centripetal force acting on it is F_o.

If its speed was increased to 3 v_o, the centripetal acceleration of the VW would be a_o x ___.

1

3

6

9

10

16

A Cadillac with mass 3 m_o and a Volkswagen with mass m_o go around the same unbanked circular curve on the freeway. Bumper to bumper they go with the same speed v_o. The centripetal acceleration of the VW is a_o and the centripetal force acting on it is F_o.

If the speed of the cars was 2 v_o, the centripetal force acting on the VW would be F_o x ___.

1

2

3

4

6

8

Two spherical planets with radii R1 = 2 R_o and R2 = R_o and masses m₁ = 2 m_o and m₂ = m_o respectively are in circular orbits of radii r₁ = 2 r_o and r₂ = r_o respectively about the same star which has mass M_s m_o. Much of this is depicted in the following figure.

The year for the first planet (the one with mass m₁) is ___ the year for the second planet.

less than

more than

equal to

incomparable with

Two spherical planets with radii R1 = 2 R_o and R2 = R_o and masses m₁ = 2 m_o and m₂ = m_o respectively are in circular orbits of radii r₁ = 2 r_o and r₂ = r_o respectively about the same star which has mass M_s m_o. Much of this is depicted in the following figure.

The speed of the first planet in its orbit is ___ the speed of the second planet in its orbit.

less than

equal to

more than

incomparable with

Two spherical planets with radii R1 = 2 R_o and R2 = R_o and masses m₁ = 2 m_o and m₂ = m_o respectively are in circular orbits of radii r₁ = 2 r_o and r₂ = r_o respectively about the same star which has mass M_s m_o. Much of this is depicted in the following figure.

The magnitude of the gravitational force exerted by the star on the first planet is ___ the magnitude of the gravitational force exerted by the star on the second planet.

equal to

less than

more than

incomparable with

Two spherical planets with radii R1 = 2 R_o and R2 = R_o and masses m₁ = 2 m_o and m₂ = m_o respectively are in circular orbits of radii r₁ = 2 r_o and r₂ = r_o respectively about the same star which has mass M_s m_o. Much of this is depicted in the following figure.

The acceleration of gravity on the surface of the second planet is ___ the acceleration of gravity on the surface of the first planet.

more than

equal to

less than

incomparable with

Two spherical planets with radii R1 = 2 R_o and R2 = R_o and masses m₁ = 2 m_o and m₂ = m_o respectively are in circular orbits of radii r₁ = 2 r_o and r₂ = r_o respectively about the same star which has mass M_sm_o. Much of this is depicted in the following figure.

The magnitude of the gravitational force exerted on the first planet by the second planet is ___ the magnitude of the gravitational force exerted on the second planet by the first planet.

more than

less than

equal to

incomparable with

The force of gravity between two bodies is:

inversely proportional to the distance between them.

directly proportional to the distance between them.

inversely proportional to the square of the distance between them.

directly proportional to the square of the distance between them.

Two bodies of equal mass are separated by a distance of 2 meters. If the mass of one body is doubled, the force of gravity between the two bodies will

be half as great.

be twice as great.

be one fourth as great.

be four times as great.

The distance between a spaceship and the center of the Earth increases from one Earth radius to three Earth radii. What happens to the force of gravity acting on the spaceship?

It becomes 1/9 as great.

It becomes 9 times as great.

It becomes 1/3 as great.

It becomes 3 times as great.

A 100 kg astronaut lands on a planet with a radius three times that of Earth and a mass nine times that of Earth. The acceleration due to gravity, g, experienced by the astronaut will be

nine times the value of g on earth.

three times the value of g on earth

the same value as g on earth.

one third the value of g on earth.

For the system of a man in an elevator, his weight will appear to be greatest when

the elevator rises at a constant velocity.

the elevator is accelerated upward.

the elevator falls at a constant velocity.

None of the above because weight is constant.