What does continental glacier mean in science?
A glacier is a mass of ice that is slowly moving and shrinking. The ice can be found on the surface of the earth or beneath it, and it is usually found in mountainous regions. The ice flows downhill, covering a portion of the earth’s surface. If the earth’s surface is below sea level, then this ice will build up, raising the water level.
What does continental glacier mean in science fair solutions?
A glacier is a large, slow-moving body of ice, either on the surface of a rocky mountain or in a valley. It is created as snowfall accumulates on a mountain, creating a large pile of ice, called a “cap” that is higher than the surrounding terrain. As snow continues to accumulate, the ice underneath slowly becomes heavier and flows downhill, slowly grinding into a flat, steep-sided glacier.
What does continental glacier mean in chemistry?
In chemistry, a glacier refers to a large body of ice covering part or all of a mountain range. The ice is connected to the mass of ice in the bedrock underneath it. A glacier is a slow moving body of ice that flows downhill. As it flows, it takes with it rocks, sand, and other debris from the mountains, leaving behind a flat, smooth surface on its lower end.
What does continental glacier mean in biology?
Continental glaciers are large masses of ice that are found on the surface of the Earth’s continents. Unlike other types of glaciers found in mountain ranges, those on the surface of the Earth’s continents do not move. While they do slowly lose water throughout the year, that water is replenished by precipitation. The melting of these glaciers is partly caused by increased temperatures from the accumulation of greenhouse gases in the atmosphere.
What does continental glacier mean in science fair?
A glacier is a large, frozen mass of ice that slowly flows toward the ocean. It usually covers large areas of a mountain range and stays in one place rather than flowing downslope. Continental glaciers are the largest and most powerful type of ice mass on the surface of the earth. They are also the slowest-moving, as they are held back by pressure from the earth’s interior.