Answer:
Electrons
Explanation:
Protons and Neutrons have an amu of 1
C. They come from energy sources that never run out.
Answer: option B. As particles travel in straight lines, their paths sometimes meet, and then they bounce apart with no gain or loss of energy.
Explanation:
The kinetic-molecular theory explains the the properties and behavior of the gases in terms of the energy, size, and motion of the particles that form the gases.
According to this model, the gas particles are in constant random motion. The particles travel in straight line until they collide either with other particles or with the walls of the vessel. Such collisions are elastic, meaning that energy is not either gain or loss. Therefore, this theory does not consider either attractions or repulsions between the particles. The particles bounce apart and the total kinetic energy is conserved.
So are you asking h<span>ow would the particle size of the zinc affect the rate of its dissolution?
you must now that t</span><span>he bigger the particle the lesser the dissolution.
</span>The reaction rate will go as the total surface area, t<span>herefore, the smaller the particles the faster the reaction. </span>
<span>This relationship is NOT linear.</span>
A characteristic of strong base is that
<span>It removes H+ ions from solution.
</span>
A strong base can dissociate into ions that can react with an acid resulting to the removal of H+ ions from a solution. A weak base only dissociates partially which removes less H+ ions in a solution.
