Warmer temperatures will completely melt a number of mountain glaciers. That melt water will go into the ocean. A lot of the ice shelf bordering Antarctica has melted. That water is not a problem. However, if that ice shelf is holding back a glacier, the glacier might move faster than normal into the ocean. If that happens, then the glacier will melt faster and that will add water to the ocean. Greenland is always sending icebergs into the ocean. If it speeds up the process, then they will melt faster and add water to the ocean. However, if the oceans get slightly warmer, more snow might fall on Greenland creating more ice so it may not be a problem. In the next decade, all of the snow capped peaks in the lower 48 states of the United States, the Alps, and the Andes will probably lose their glaciers. That could cause some rise in the sea level.
because it is warmed from rays
The temperature zones in which the atmospheric temperature increases as the distance above sea level increases are the stratosphere and the thermosphere.
Two effects of a significant rise in the earth's temperature are the melting of polar ice caps and the increase in extreme weather events. The melting of polar ice caps leads to rising sea levels, which can result in coastal flooding and erosion. Additionally, the increase in temperature can intensify hurricanes, droughts, and heatwaves, leading to more frequent and severe extreme weather events.
The sound has really nothing to do with sea level, but changes with temperature alone. The speed of sound goes up when the temperature goes up and goes down when the temperature goes down. The frequency of sound columns, like of woodwinds or of church organs changes with temperature. If the temperature increases, the frequency increases also.
There is no simple answer to how temperature is defined at the microscopic level. However, though this is not entirely accurate, it helps to think of temperature as the average kinetic energy of the particles.
Temperature measures the speed of random thermal motion on the atomic and molecular level. When sub-microscopic particles are moving faster, the liquid as a whole will be more fluid and less viscous.
because it is warmed from rays
because it is warmed from rays
No, it only increases when the water level increases; it is not a matter of temperature.
The temperature zones in which the atmospheric temperature increases as the distance above sea level increases are the stratosphere and the thermosphere.
Effect of low water level in the boiler is rapid increase the temperature of the metal tubes, causing a collapse or rupture.
The temperature will decrease.
Becoming dehydrated alone does not cause stress. However, when water is not being drank enough and the person becomes dehydrated their stress level can increase, so yes, dehydration can contribute to stress.
Effect of low water level in the boiler is rapid increase the temperature of the metal tubes, causing a collapse or rupture.
Temperature measures the speed of random thermal motion on the atomic and molecular level. When sub-microscopic particles are moving faster, the liquid as a whole will be more fluid and less viscous.
Yes. In the absence of greenhouse gases, the world would be some 30 degrees celsius colder. At the other extreme, greenhouse gases contribute to the extreme heat on the planet Venus. So, a normal level of greenhouse gases, including carbon dioxide, is very desirable. The present increase in the level of atmospheric carbon dioxide is considered to be the main cause of increasing average global temperatures.
Algor or Algor Mortis is reduction of the body temperature upon death. As time passes, the body temperature lowers to room or environment level. As the body decomposes, temperature within tends to increase.
Two effects of a significant rise in the earth's temperature are the melting of polar ice caps and the increase in extreme weather events. The melting of polar ice caps leads to rising sea levels, which can result in coastal flooding and erosion. Additionally, the increase in temperature can intensify hurricanes, droughts, and heatwaves, leading to more frequent and severe extreme weather events.