Heat affects the properties by speeding up the particles and providng them with more energy. As they heated the bounce off one another and expand the solid. When it's cold, The particles have less energy and don't move as much, This results in contraction and the solid shrinks.
Basically, Heat ---> expansion
Cooling -----> contraction
This varies depending on the substance What happens to the particles in substance B if they change state to substance
By heating temperature is increased up to the melting or boiling; sometimes heating lead to thermal decomposition.
it decreases
The intermolecular forces of attraction in the solid decreases as it is heated and the solid melts (solid converts to liquid) at its melting point.
It heats up, until it reaches the melting point or sublimation point of the solid.
it burns and turns into nothing
It depends on the temperature, however, at standard and room temperature, copper is a solid.
Calcium can be solid, liquid or gas. At room temperature it happens to be a solid.
The intermolecular forces of attraction in the solid decreases as it is heated and the solid melts (solid converts to liquid) at its melting point.
Silver would be a solid at room temperature. This is also what happens with gold. If both were heated, then they would be liquids.
It heats up, until it reaches the melting point or sublimation point of the solid.
Melts into a liquid.
it expands
When heated to a sufficiently high temperature, solid magnesium hydroxide will decompose into magnesium oxide and water: Mg(OH)2 -> MgO + H2O.
The intermolecular forces of attraction in the solid decreases as it is heated and the solid melts (solid converts to liquid) at its melting point.
it goes down
it goes down
The solid will expand.
It rises in temperature.
A substance in the solid phase will typically expand when heated. Most substances when heated sufficiently will melt into a liquid, assuming that they do not combust or sublimate.