Which answer choice correctly explains the role of the kinetic theory of matter in the process of solutes being dissolved into solvents?

The continuous motion of the particles in the solvent and solute cause them to collide with one another, which results in bonds being broken, attractions being disrupted, and particles being separated from one another.
The high temperature of the particles in the solvent and solute cause them to repel each other, which results in bonds being broken, attractions being disrupted, and particles being separated from one another.
The small size of the particles in the solvent and solute cause them to fit together, which results in bonds being formed, attractions being developed, and particles being joined to one another.
The stationary nature of the particles in the solvent and solute cause them to merge their structures, which results in bonds being formed, attractions being developed, and particles being joined to one another

is it c?

a is a better choice than c.

I think its a

No, answer choice (c) is not correct. The kinetic theory of matter explains the role of motion, not the size of particles in the solvent and solute.

The correct answer is answer choice (a): The continuous motion of the particles in the solvent and solute cause them to collide with one another, which results in bonds being broken, attractions being disrupted, and particles being separated from one another. This explanation aligns with the concept that the kinetic theory of matter states that particles are in constant motion, and this motion facilitates the process of solute particles dispersing and dissolving in the solvent particles.

No, the correct answer choice is A:

"The continuous motion of the particles in the solvent and solute cause them to collide with one another, which results in bonds being broken, attractions being disrupted, and particles being separated from one another."

The kinetic theory of matter explains the behavior of particles in substances. According to this theory, particles are in constant motion and possess kinetic energy. In the process of solutes being dissolved into solvents, the particles in both the solvent and solute are continuously moving. As a result, they collide with one another, causing bonds to be broken, attractions to be disrupted, and particles to be separated from one another. This facilitates the mixing and distribution of solute particles within the solvent, leading to the process of dissolution.