Answer:
Mosquitoes like it warm and wet Unlike us, their body temperature closely matches the temperature of the environment (air or water) around them.
Explanation:
Answer:
no
Explanation:
cause if you were travel in a airplane you would be in space
Answer:
bc they just made in ppl and that made the late centuries cause
Explanation:
Answer:
A. Weathering, vegetation covering, and water influence the stability of a slope.
Explanation:
- As water tends to flow down by the act of gravity the flow of the water down the slope will make the unconsolidated sediments to flow down the slope and thereby making the slope more prone to weathering and not stabilization it hence the flow tends to move down the rocks, silt and loose particles and thus making it me prone to weathering and erosion.
- <u>Thus the flowage of the matter will create more impacts on the slope angle and width as it will spread more faster and extensively.</u>
The world’s ocean is crucial to heating the planet. While land areas and the atmosphere absorb some sunlight, the majority of the sun’s radiation is absorbed by the ocean. Particularly in the tropical waters around the equator, the ocean acts a as massive, heat-retaining solar panel. Earth’s atmosphere also plays a part in this process, helping to retain heat that would otherwise quickly radiate into space after sunset.
The ocean doesn't just store solar radiation; it also helps to distribute heat around the globe. When water molecules are heated, they exchange freely with the air in a process called evaporation. Ocean water is constantly evaporating, increasing the temperature and humidity of the surrounding air to form rain and storms that are then carried by trade winds, often vast distances. In fact, almost all rain that falls on land starts off in the ocean. The tropics are particularly rainy because heat absorption, and thus ocean evaporation, is highest in this area. Outside of Earth’s equatorial areas, weather patterns are driven largely by ocean currents. Currents are movements of ocean water in a continuous flow, created largely by surface winds but also partly by temperature and salinity gradients, Earth’s rotation, and tides (the gravitational effects of the sun and moon). Major current systems typically flow clockwise in the northern hemisphere and counterclockwise in the southern hemisphere, in circular patterns that often trace the coastlines. Ocean currents act much like a conveyer belt, transporting warm water and precipitation from the equator toward the poles and cold water from the poles back to the tropics. Thus, currents regulate global climate, helping to counteract the uneven distribution of solar radiation reaching Earth’s surface. Without currents, regional temperatures would be more extreme—super hot at the equator and frigid toward the poles—and much less of Earth’s land would be habitable.
