Ice is made up of water molecules. Very tiny things.
When water molecules move around really fast, that's the exact same as them being hot. They are steam when they move around a lot, and steam is hot - and a gas. Steam might even be so hot it hurts - that's because they're smashing into the molecules in your body and making them move around too even when they shouldn't and could damage you. Your body senses this and sends you pain signals so that you know to move away from the steam.
Water molecules can also stick together. With steam, the molecules move so much that they're just bouncing around all over the place and the stickiness doesn't really matter. If two water molecules stick together in steam, other ones are likely to ram into them and break them up This is why steam billows out in all directions. When water molecules in steam cool down, as in slow down, their stickiness to each other becomes a more important factor than before. The molecules still move around, just less than before. They interact with one another, keeping themselves tied together in the same general area but still moving a lot. This is why water settles into one place in a glass and why you can pour it as a room temperature liquid.
When water molecules get even cooler, the stickiness starts to matter even more. The molecules aren't bouncing off each other much anymore, they're just stuck together. This is what a solid is and ice is a solid.
Now, I've been saying stickiness, but with how small water molecules are, and what they're made of, it's actually very specific properties of the molecules that make them interact to "stick" together, with the strongest one being charge polarity. But that's for a difference explanation!
Finally: so, for ice to melt, you need to get its molecules moving again. One way to get them moving is to expose them to a hot material, i.e. one that's moving around a lot. Put your ice cube on a room temperature table and it will slowly melt because the molecules in the air and table are moving along so much that if the water molecules were doing the same they'd be in "liquid mode". Another way is to add energy to the system in the form of radiation, which induces movement within the molecules and, therefore, between them since they're in close proximity. The reason it makes them move is complicated and is literally quantum mechanics so I'll also leave that for a different explanation.
Ice is made up of water molecules. Very tiny things.
When water molecules move around really fast, that's the exact same as them being hot. They are steam when they move around a lot, and steam is hot - and a gas. Steam might even be so hot it hurts - that's because they're smashing into the molecules in your body and making them move around too even when they shouldn't and could damage you. Your body senses this and sends you pain signals so that you know to move away from the steam.
Water molecules can also stick together. With steam, the molecules move so much that they're just bouncing around all over the place and the stickiness doesn't really matter. If two water molecules stick together in steam, other ones are likely to ram into them and break them up This is why steam billows out in all directions. When water molecules in steam cool down, as in slow down, their stickiness to each other becomes a more important factor than before. The molecules still move around, just less than before. They interact with one another, keeping themselves tied together in the same general area but still moving a lot. This is why water settles into one place in a glass and why you can pour it as a room temperature liquid.
When water molecules get even cooler, the stickiness starts to matter even more. The molecules aren't bouncing off each other much anymore, they're just stuck together. This is what a solid is and ice is a solid.
Now, I've been saying stickiness, but with how small water molecules are, and what they're made of, it's actually very specific properties of the molecules that make them interact to "stick" together, with the strongest one being charge polarity. But that's for a difference explanation!
Finally: so, for ice to melt, you need to get its molecules moving again. One way to get them moving is to expose them to a hot material, i.e. one that's moving around a lot. Put your ice cube on a room temperature table and it will slowly melt because the molecules in the air and table are moving along so much that if the water molecules were doing the same they'd be in "liquid mode". Another way is to add energy to the system in the form of radiation, which induces movement within the molecules and, therefore, between them since they're in close proximity. The reason it makes them move is complicated and is literally quantum mechanics so I'll also leave that for a different explanation.