water level will remain the same
well the answer is it remains same although i dont know the reason so i learnt it as a fact
No. As it melts, it will saturate the layer below it, so that layer of snow will be heavier but there will be the same amount of water-equivalent on the limbs. And some of the water will likely drip off the branches anyway. In other words, the most weight that will be on tree limbs is right after the snow stops falling.
The white doesn't go anywhere when ice melts. When ice melts, its turns into water. Ice is just frozen water.
no beacause a rubber duck floats and if an object floats in water, is is less dense than the water if it sinks it is more dense
It melts
First it floats, then it melts and makes the water colder.
Ice floats and melts in your drink
It simply floats and slowly melts.
It's in the ice that melt over the ice plateu and fall to the water and floats until it melts.
Glaciers entering the sea and separating into smaller segments of ice.
Yes. It floats on water
The volume of a beaker doesn't change, it's a beaker. What your were probably trying to ask is what happens to the volume of the ice when it melts. The volume decreases; water is special. Unlike other substances when it freezes it expands. That is why ice floats, it is less dense then water.
Of course. Fresh water floats on salt water, warmer water floats on cooler water, and ice floats on any water.
Ice melts faster in hot water than in a frying pan. When ice is placed in a hot frying pan, it forms a layer of steam which it floats upon, that insulates it, to some degree, from the frying pan. Thermal conduction is better when it is immersed in hot water.
well the answer is it remains same although i dont know the reason so i learnt it as a fact
It is less dense than water, therefore it floats on water.
It floats because the shape of the hull with a large cavity inside displacing the water counteracts the weight of the metal hull. The water displacement counteracts the force of gravity, spreading the weight of the boat out across a larger surface area with a great tensile strength, resisting the force of gravity.