A solid with weak intermolecular forces, such as those found in nonpolar molecules or small molecules, is likely to have the lowest melting point. These weak intermolecular forces are easily overcome by increasing temperature, causing the solid to melt.
Latitudes that are most likely to see glaciers are maritime areas north of 35˚N and south of 35˚S
A global rise in sea level is most likely caused by two primary factors: the thermal expansion of seawater as it warms and the melting of glaciers and ice sheets. As global temperatures increase due to climate change, ocean water expands and ice from places like Greenland and Antarctica melts, contributing additional water to the oceans. Additionally, the melting of smaller glaciers worldwide also adds to rising sea levels. These combined effects pose significant risks to coastal communities and ecosystems.
Yes, melting ice at the north or south poles can contribute to rising sea levels. This is because ice that melts from polar regions adds more water to the ocean, increasing its volume and causing sea levels to rise.
A U-shaped valley is most likely formed by the process of deposition from glaciers. Glaciers carve out valleys as they flow, leaving behind sediment and debris when they melt. This material can accumulate at the base of the glacier, creating a U-shaped valley.
A new mountain range will likely experience erosion due to weathering processes such as rain, wind, and glaciers, which will shape the landscape over time. The mountains may also undergo tectonic activity, causing earthquakes and volcanic eruptions. Over millions of years, the new mountain range will likely continue to change and evolve due to these natural processes.
It is not advisable for people to live on glaciers due to harsh living conditions, extreme temperatures, unstable ice formations, and the risk of avalanches and crevasses. Additionally, glaciers are constantly shifting and melting, posing additional dangers to human habitation.
Valleys are most likely produced by erosion from running water, glaciers, or tectonic activity. These processes gradually wear away the land, forming a depression in the Earth's surface.
A solid with weak intermolecular forces, such as those found in nonpolar molecules or small molecules, is likely to have the lowest melting point. These weak intermolecular forces are easily overcome by increasing temperature, causing the solid to melt.
Latitudes that are most likely to see glaciers are maritime areas north of 35˚N and south of 35˚S
Most common change to the Earths surface from internal forces would most likely be earthquakes and volcano eruptions. External forces could be considered meteor strikes, or possibly the effects of gravity on the oceans ( Tides ) Global warming is also melting glaciers and causing a growth in arid regions. kapm
A planet is most likely to have tectonic activity if it has a molten interior, composed of materials that can flow and deform. Tectonic activity is driven by the movement of these materials in the planet's interior, causing the crust to shift and create features like mountains, earthquakes, and volcanoes.
A global rise in sea level is most likely caused by two primary factors: the thermal expansion of seawater as it warms and the melting of glaciers and ice sheets. As global temperatures increase due to climate change, ocean water expands and ice from places like Greenland and Antarctica melts, contributing additional water to the oceans. Additionally, the melting of smaller glaciers worldwide also adds to rising sea levels. These combined effects pose significant risks to coastal communities and ecosystems.
Global warming, the rising temperature of the oceans, land surface and atmosphere, is causing the climate to change. The extra warmth in the atmosphere is energy, and this gives extra power to every storm. Ice is melting all over the world, and when that ice is on land, like glaciers and the Antarctic ice cap, then the water runs into the oceans raising sea levels.
When a material is melting, the temperature is likely to be increasing. That or the temperature is just above the material's melting/freezing point.
Yes, melting ice at the north or south poles can contribute to rising sea levels. This is because ice that melts from polar regions adds more water to the ocean, increasing its volume and causing sea levels to rise.
A U-shaped valley is most likely formed by the process of deposition from glaciers. Glaciers carve out valleys as they flow, leaving behind sediment and debris when they melt. This material can accumulate at the base of the glacier, creating a U-shaped valley.