The Tilt of the Earth’s Axis and Cold Temperatures in the Northern Hemisphere
1. Cold temperatures are experienced in Northern hemisphere because of the axis of the earth which is tilted. In winter, the rays of the sun hit the Earth at a low angle and they spread everywhere limiting the amount of energy reaching the earth’s surface.
When the axis of the earth is tilted, it causes shorter days and longer nights and therefore when this happens, the earth’s surface does not warm up and thus remain cold.
2. The main source of energy to the earth is the sun; it provides light to earth and also warmth. The only form which this energy is transferred is through radiation which involves transfer of energy through visible light (Snedden, 2006)
Because radiation involve the transmission of thermal energy as waves and it’s done through the matter of empty space to the earth, it makes radiation the only form of heat transfer between sun and earth.
Question 4.
|
City and state |
Bismarck, North Dakota |
Quillayute, Washington |
Springfield, Missouri |
Norfolk, Virginia |
|
|
Latitude and longitude |
46.7825 & -100.757 |
47.9375 & |
37.2397 & -93.3897 |
36.9033 & -76.1922 |
|
|
Distance to nearest ocean in miles |
8,691mi |
9,207mi |
8,663mi |
7,794mi |
|
|
Highest monthly average high |
85°F |
69°F |
89°F |
87°F |
|
|
Lowest monthly average high |
23°F |
46°F |
43°F |
48°F |
|
|
Range of monthly average highs |
23-85°F |
46-69°F |
43-89°F |
48-87°F |
|
|
Lowest monthly average low |
2°F |
35°F |
22°F |
33°F |
|
|
Highest monthly average low |
57°F |
51°F |
68°F |
72°F |
|
|
Range of monthly average lows |
2-57°F |
35-51°F |
22-68°F |
33-72°F |
|
|
Annual average temperature range~ |
42.8°F |
49.3°F |
56.15°F |
60.05°F |
|
|
Is this location an example of a marine or a continental climate? |
Continental |
Humid Continental |
Humid Continental |
Humid Continental& maritime |
4. Norfolk, Virginia -because of its mild climatic conditions as compared to other areas in the United States and it receives warm summers and sufficient amount of rainfall not much to cause floods thus excellent for farming. It has favorable seasons and temperatures. Has a variety of vegetation and grasses as they are able to survive in such climatic conditions. The available vegetation supports many animals.
Springfield, Missouri- it has a humid climate which is gentle with no dry season. Summers are hot but winters are mild with rainfall. Has a refreshing climatic condition that brings exciting experiences in every season.
5. When land is heated during the day, it quickly absorbs heat and the temperature will increase than that of the land hence change in air temperature which results in movement of air from the cool area towards the land which is now hot, hence creating a sea breeze (Oliver, 2005).
Winds that flow from the sea to the land are called sea breeze. That’s the reason why waters are cold at daytime.
Describe a land-sea breeze at night
this is the vice versa of what happens at daytime, the land loses heat faster than water and therefore at night all the heat which was absorbed during the day is lost, therefore the temperature on the land is cooler whereas that on the sea is hot. The cool air then flows from land to the sea creating a land breeze (Oliver, 2005).
The Sun as the Main Source of Energy for the Earth
6. Winds flowing from the land to the sea are called a land breeze. That explains the reason why sea waters are warm at night.
Albedo is the gauge of reflectivity of a surface. It’s the portion of the shortwave radiation reflected from earth back to the sky. The surface of land occupied by ice/snow has a high albedo and therefore whole or most of the sunlight that hit it reflects back (Philander, 2008).
Water is a good absorbent of light and less reflective cause more radiation to be absorbed and therefore less light is reflected back.
Earth’s albedo has a cooling result. Its principle is applied to buildings in hot areas in that buildings are painted with white colors especially on the outside because when the light hits white surfaces there are high levels of reflection hence keep the buildings cool inside.
Earth’s surface has features with different colors which includes white patches of ice and snow (Singh, et.al, 2011), dark oceans and forests/vegetation and each feature has an effect on the temperature of the earth in that they help in cooling and warming of the earth’s surface. Reflective surfaces like ice and snow help in cooling the earth, while dark areas like oceans absorb a lot of heat hence warms the earth surface.
Clouds also help in cooling and at the same time in warming the earth surface. White clouds reflect light hence cooling effect is felt, dense clouds which might be carrying water vapor in the condensed state helps in warming because they absorb and maintain heat.
Earth’s albedo has also caused an impact on global warming (Philander, 2008), in that there are decreased white surfaces, therefore, there is less light being reflected hence earth warming.
- List 3 land surfaces that have a high albedo.
- Ice and snow
- Glaciers
- deserts
- List 3 land surfaces that have a low albedo
- Water
- Forests
- Grasslands
7. Microclimate is a smaller region in the climate precinct that has own unique climate. It applies to areas of terrestrial and those with glaciers, but can also refer to oceans and other water body surfaces. Examples of microclimate include near water bodies, in heavy urban areas where bricks reflect sun’s energy, slopes.
Living in a microclimate region especially near a water body like oceans is good because there is cool climate and temperatures are favorable due to the presence of land-sea breezes. General climate is dry, warm and with good sunshine and therefore there is vegetation.
8. Weather symbols (Bolc, 1984).
Cold front
Warm front
Stationary front
Occluded front
Reference list
Bolc, L. (1984). Natural language communication with pictorial information systems. Berlin: Springer.
Oliver, J. E. (2005). Encyclopedia of world climatology. Dordrecht: Springer.
Philander, S. G. (2008). Encyclopedia of global warming and climate change: 1. Los Angeles [u.a.: SAGE
Singh, V. P., Singh, P., & Haritashya, U. K. (2011). Encyclopedia of snow, ice, and glaciers. Dordrecht: Springer.
Snedden, R. (2006). Energy transfer. Chicago, Ill: Heinemann Library.
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