Originally posted by Guybrush Threepwood
the level will drop.
the ice has a density a bit lower than the water (that's why ice is floating).
http://www.its.caltech.edu/~atomic/snowcrystals/ice/ice.htm
Originally posted by Rog
I disagree. The ice cube is made wholly of water in a cryistaline form and therefore its mass although lower than liquid water would still diplace the same amount of water as is contained within the cube. if the cube melts the water from it will replace exactly the water that was originally displaced by the cube. therefore the level will remain the same.
Originally posted by S = k log w
Is a perfect ice cube is made of wholly crystaline water? Aside from bubbles or such trapped particles, (which I am discounting), does the surface of the cube remain as a solid, or is it in a dynamic process of changing it's state?
Originally posted by david90
I know the answer to this question! I did this question for my hw.
The answer is the water level will lower and then rise. I'm not sure at what temp, but water has a different density at certain temp. I think near 3 or 4 C, the density is lower than at other temp.
The purpose of investigating the melting ice cube is to understand the effects of climate change on the Earth's polar ice caps and to raise awareness about the urgent need for action to prevent further melting.
The melting ice cube experiment involves placing a cube of ice in a container of water and observing how it melts over time. This simulates the melting of polar ice caps due to rising global temperatures.
The melting ice cube experiment can teach us about the process of melting and how it is affected by external factors such as temperature and surface area. It also highlights the importance of addressing climate change and its impacts on our planet.
The melting ice cube experiment is a simplified version of the real-world situation of melting polar ice caps. It demonstrates how changes in temperature and surface area can lead to melting and how this can have significant consequences for our planet, such as rising sea levels and disruptions to ecosystems.
There are many actions you can take to help prevent the melting of polar ice caps, such as reducing your carbon footprint by using renewable energy sources, supporting policies and initiatives that address climate change, and educating others about the issue. Every small step towards reducing greenhouse gas emissions can make a difference in preserving our polar ice caps.