Introduction: Climate is determined by the temperature and precipitation characteristics of a region over time. The temperature characteristics of a region are influenced by natural factors such as latitude, elevation and the presence of ocean currents.
How does location affect climate?
One of the easiest to understand geographic influences on climate is latitude. … Locations at latitudes closer to the equator receive more direct sun exposure, and as a result have generally warmer climates year round than locations further from the equator.
Does climate depend on location?
The climate of a region depends on many factors including the amount of sunlight it receives, its height above sea level, the shape of the land, and how close it is to oceans. Since the equator receives more sunlight than the poles, climate varies depending on its distance from the equator.
How is climate determined?
Climate is determined by the long-term pattern of temperature and precipitation averages and extremes at a location. … Climate descriptions can refer to areas that are local, regional, or global in extent.
How does geography or location affect climate?
An area’s latitude on the surface of the Earth (location in terms of north and south) also affects the weather, because it changes the intensity of the sun’s light that the area receives. This has a direct effect on the temperature.
How can locations be identified by its climate and topography?
The topography of an area can influence the weather and climate. Topography is the relief of an area. If an area is close to a body of water it tends to make milder climates. Mountainous areas tend to have more extreme weather because it acts as a barrier to air movements and moisture.
Which important factors determine the climate of a place?
The two most important factors in the climate of an area are temperature and precipitation. The yearly average temperature of the area is obviously important, but the yearly range in temperature is also important.
What is the climate of a place?
Climate is the long-term pattern of weather in a particular area. Weather can change from hour-to-hour, day-to-day, month-to-month or even year-to-year. A region’s weather patterns, usually tracked for at least 30 years, are considered its climate.
How latitude affects the climate?
Latitude or distance from the equator – Temperatures drop the further an area is from the equator due to the curvature of the earth. … As a result, more energy is lost and temperatures are cooler.
How does the climate of a location determine how much precipitation the area receives?
There are many factors that determine how much precipitation a region will receive. One important factor is the global climate pattern driven by the temperature difference between the equator and the poles. … This dense, high pressure air circulates north or south and sinks at 30 degrees north or south of the equator.
Which two key factors determine the climate of a region?
Introduction: Climate is determined by the temperature and precipitation characteristics of a region over time.
Why does the climate differ from place to place?
At higher latitudes, such as in Europe or North America, you would be standing a little way around the curve of the earth and so the sun always stays lower in the sky. … If the sun is low in the sky, the energy is splurged out across the land; so there is less energy falling on the same unit area (Figure 1.1a).
What factors affect climate?
There are lots of factors that influence our climate
- Elevation or Altitude effect climate. Normally, climatic conditions become colder as altitude increases. …
- Prevailing global wind patterns. …
- Topography. …
- Effects of Geography. …
- Surface of the Earth. …
- Climate change over time.
Does geography include climate?
Physical geography is the study of Earth’s seasons, climate, atmosphere, soil, streams, landforms, and oceans.
How does geographical location of the Philippines affect its weather climate and seasons?
The Philippines is located in the western Pacific Ocean, surrounded by naturally warm waters that will likely get even warmer as average sea-surface temperatures continue to rise. … The ocean then releases some of its heat into the atmosphere, creating wind and rain clouds.