Weather refers to atmospheric phenomena including temperature and precipitation and clouds and wind, that are happening at a particular place at a particular time; climate describes the usual kind of weather that is found in a particular place throughout the year, and atmospheric temperature is just the heat or coldness of the air.
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Weather refers to the temporary conditions of the atmosphere such as the temperature, rainfall or wind, and weather changes from time to time. Climate refers to the variety of weather conditions normally experienced on the average and it changes from place to place.
Meteorologists study atmospheric phenomena along with weather patterns. They then relate their findings to how weather and climate affect life on earth.
Weather and climate are important because it helps to produce fresh water for the Earth. They also help the wind move air masses on the Earth's surface and creates the rise and fall of temperature.
The atmospheric cycle is the exchange of heat between the sun and the surface of the earth. It is these atmospheric cycles that determine the weather.
The troposphere
There are five elements of weather: temperature, atmospheric pressure, humidity, wind and rain. None are more important than another. The sun and its position in relation to Earth.
atmospheric pressure
Yes to both. All places on earth have a general weather pattern, which is called climate. Different places have different climates, but every place has some climate. Similarly, everything has temperature, not matter how warm or how cold.
Temperature and temperature differences are among the key driving forces in weather on earth. If earth's climate changes then temperature patterns will change, which can shift the occurrence of weather events, including extreme weather. Additionally, heat is energy that powers some types of storm. The logic follows that warmer temperatures means more energy and thus more and stronger storms. However, the situation of climate change and how it affects storms is more complicated than that.
A major increase in particulate matter in the atmosphere would cause a decrease in Earth's average surface temperature
Atmospheric scientists, commonly called meteorologists, study the atmosphere's physical characteristics, motions, and processes, and the way in which these factors affect the rest of our environment. The best known application of this knowledge is forecasting the weather. In addition to predicting the weather, atmospheric scientists attempt to identify and interpret climate trends, understand past weather, and analyze today's weather. Weather information and meteorological research are also applied in air-pollution control, agriculture, forestry, air and sea transportation, defense, and the study of possible trends in the Earth's climate, such as global warming, droughts, and ozone depletion.Atmospheric scientists who forecast the weather are known as operational meteorologists; they are the largest group of specialists. These scientists study the Earth's air pressure, temperature, humidity, and wind velocity, and they apply physical and mathematical relationships to make short-range and long-range weather forecasts. Their data come from weather satellites, radars, sensors, and stations in many parts of the world.There really isn't a pacific type of technology scientists use to study air temperature. They do it so many ways with out using much technology.For more information on Atmospheric scientists, you can check out librarys and research Atmospheric scientists, read encyclopedias, and even Earth Science books.