By melting it. The melting point of ice is 0 °C (32 °F, 273 K). When it reaches this temperature, it will begin the process of becoming water.
In order to change ice into liquid water, heat energy must be supplied to the system. This is an endothermic process.
weight?
The weight of the water will stay the same whether ice, water or steam, because the mass has not changed.
Reversible reactions are those where the products are in equilibrium at a set of conditions. For one of the most simple examples to illustrate this, look at ice water. At equilibrium conditions, a class of ice water is half ice and half water. If you shift the conditions by heating the ice water, ice will melt to bring the temperature back to equilibrium conditions but the ratio of ice to water will have changed.
When water is poured on to dry ice it melts because it is a gas called carbon dioxide. Carbon dioxide is 0.35% of our air
Rain is liquid Ice is solid. with water when you cool it (slow the molecules) it expands (which is unique to water) becoming a solid crystal, and since it expands its mass per volume ratio has changed making it less dense then liquid water.
ice can changed to water by heating it . the ice will slowly melt into the form of water
Of course: after 0 0C ice become liquid water.
a physical change
ICE, is a liquid (water) changed to a solid.
weight?
Yes, because it only changed its physical state
if it is ice melt it to water to make an liquid and ice stem it to make a gas
There is a physical change where it turns from a liquid into a solid.
Water because It is first solid its ice then when it melts it is liquid and when it is a gas its water vapor.
The weight of the water will stay the same whether ice, water or steam, because the mass has not changed.
It's because of air bubbles in the water. When you freeze the water, air bubbles will get stuck inside the ice,which also is the cause of it's white color
Reversible reactions are those where the products are in equilibrium at a set of conditions. For one of the most simple examples to illustrate this, look at ice water. At equilibrium conditions, a class of ice water is half ice and half water. If you shift the conditions by heating the ice water, ice will melt to bring the temperature back to equilibrium conditions but the ratio of ice to water will have changed.