Forces of attraction limit the motion of particles most inA. a solid.
B. a liquid.
C. a gas.
D. both b and c

Answers

Answer 1

Answer:

Answer:

Solids

Explanation:

Solids have definite shapes and definite volumes. The forces of attraction between the molecules of a solid substance are strong and the intermolecular spaces are very small. Due to this, the motion of molecules within a solid substance are very difficult that they only vibrate in their positions.

For liquids, they have definite volumes and indefinite shapes. The forces of attraction between the molecules of a liquid are intermediate and the the intermolecular spaces are intermediate as well. Due to this, the motion of molecules within a liquid substance is not as difficult as it is within solids.

Finally, for gases, they have indefinite shapes and indefinite volumes. The forces of attraction between the molecules of a gas are weak and the intermolecular spaces are large. Due to this, the motion of particles of gas is very easy.

Hope this helps :)

Answer 2

Answer:

Final answer:

The forces of attraction limit the motion of particles most significantly in solids because particles in a solid are closely packed and have stronger forces of attraction, which hold them tightly in fixed positions.

Explanation:

The forces of attraction between particles limit motion most significantly in a solid (Option A). In a solid, particles are closely packed together and have the least amount of freedom to move, compared to particles in a liquid or gas. This is because the forces of attraction in a solid are very strong, holding particles tightly in fixed positions. In contrast, particles in liquids and gases have more freedom to move as the forces of attraction are weaker.

However, this does not mean that particles in a liquid or gas do not experience forces of attraction. They do, but the forces are weaker in comparison to solids, allowing for more movement. Hence, solids are the state of matter in which forces of attraction limit the motion of particles most.

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What causes objects to fall on earth and what is the rate at which this occurs?

Answers

Newton called it "Universal Gravitation".
Now, most people call it "gravity".

What gravity does is:

It causes there to be forces that pull every speck of mass in the
universe toward every other speck of mass in the universe.

-- If you just think about two gobs of mass, then there are two forces
of gravity.

-- One force pulls gob-A toward gob-B, and the other force
pulls 'B' toward 'A'.

-- The strengths of both forces are EQUAL.

-- The strength depends on the product of the two masses.

It doesn't matter if the masses are the same or if one is ginormous
and the other is minuscule. It's the product that counts.
Bigger product ==> stronger force.
Smaller product ==> weaker force.

-- The strength also depends on the distance between the two masses.
Farther apart ==> weaker force.
Closer together ==> stronger force.

-- When you hold a rock in your hand, there are forces of gravity
between the rock and the Earth.

-- When you let go of the rock, one force pulls the rock toward
the Earth. You call that force "The weight of the rock".

-- The other force force pulls the Earth toward the rock.

-- The forces are equal. The rock's weight on Earth is equal to
the Earth's weight on the rock.

-- Force applied to a mass causes the mass to accelerate in the
direction of the force.

-- The force on the rock causes it to accelerate toward the Earth.
We call that the act of "falling".

-- The force on the Earth causes it to accelerate toward the
rock. Nobody ever notices that, nobody ever talks about it,
and you are thinking that I am full of merren tzimmes. But it's
true. I swear it. You could look it up. Furthermore, I laugh at
your derogatory remark, because it is often true and my wife's
merren tzimmes is delicious.

-- The reason we never notice it is: When equal forces are applied
to two different masses, the smaller mass accelerates more, and the
bigger mass accelerates less.

When you allow the 1-kilogram rock and the Earth to accelerate
toward each other under the influence of the equal gravitational
forces between them, they do indeed accelerate toward each other.

BUT ... the mass of the Earth is roughly

   5,972,000,000,000,000,000,000,000 times

the mass of the rock, so the acceleration of the rock is roughly

   5,972,000,000,000,000,000,000,000 times

the acceleration of the Earth.

So the falling of the rock toward the Earth is substantially more
obvious than the falling of the Earth toward the rock.

-- The rate of acceleration of any object falling on or near
the Earth's surface is 9.8 m/s² .

That means that the object's speed increases steadily and
continuously. At any instant, the speed at which it's falling
is 9.8 meter/sec faster than it was 1 second earlier.

Work done by the resultant force is always equal to change in kinetic energy a)True b)False

Answers

b) False

The statement is not always true. The work done by the resultant force is equal to the change in kinetic energy only in the absence of other non-conservative forces, such as friction or air resistance. In the presence of such forces, the work-energy theorem may not hold, and the work done by the resultant force may not equal the change in kinetic energy.

When particles move past each other with ease it is called _____.a. effusion
b. fluidity
c. density
d. compressibility

Answers

fluidity is the answer

B. its fluidity, particles of a gas move freely

Which statement BEST describes how the body moves?a. Skeletal muscles, which are made of fibers, nerves, and blood vessels, contract in order to make the body move.
b. Cardiac and smooth muscles are made of muscle fibers, nerves, and cartilage and are responsible for all movement in the body.
c. Smooth muscles, which are made of blood vessels, fibers, and nerves, allow for all activities that use slow-twitch muscle fibers.
d. Skeletal muscles, which are made of tendons, nerves, and fibers, line the body cavities and allow for support and movement.

Answers

Answer;

A. Skeletal muscles, which are made of fibers, nerves, and blood vessels, contract in order to make the body move.

Explanation;

Muscular tissues functions in movement and locomotion through its direct connection with the skeletal system.
Skeletal muscles are responsible for moving the body. The skeletal muscle contractions pull on tendons, which as attached to bones. When the skeletal muscle contraction causes the muscle to shorten, the bone and thus the body par will move.
Skeletal muscles also provide structural support for the entire body.

Answer:

Skeletal muscles, which are made of fibers, nerves, and blood vessels, contract in order to make the body move.

Explanation:

Which lighting direction is used to create silhouettes?

Answers

Backlighting is used to create silhouettes

HOPED I HELPED

Backlight is the answer

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Answers

Answer:

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Explanation:

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I’m pretty sure it’s D.) solar winds

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