Atmospheric scientists need a bachelor's degree in meteorology or a closely related earth sciences field for most positions. For research positions, atmospheric scientists need a master's degree at minimum, but usually will need a Ph.D.
Education
Atmospheric scientists typically need a bachelor's degree, either in atmospheric science or a related scientific field that specifically studies atmospheric qualities and phenomena. Bachelor's degrees in physics, chemistry, or geology are usually adequate, alternative preparation for those who wish to enter the atmospheric sciences. Many schools offer atmospheric science courses through other departments, such as physics and geosciences. Prospective meteorologists usually take courses outside of the typical atmospheric sciences field.
Course requirements, in addition to courses in meteorology and atmospheric science, usually include advanced courses in physics and mathematics. Classes in computer programming are important because many atmospheric scientists have to write and edit the computer software programs that produce forecasts. Coursework in communications is also becoming important as organizations are increasing their efforts to make their data accessible to the public and to educate their communities and the nation. And because of recent advancements in technology, a class in remote sensing of the environment, by radar or satellite, may be required.
Courses should be taken in subjects that are relevant to their desired area of specialization. For example, those who wish to become broadcast meteorologists for radio or television stations may take courses in speech, journalism, or related fields.
Atmospheric scientists who work in research must at least have a master's degree, but will usually need a Ph.D. in atmospheric science or a related field. Most graduate programs do not require prospective students to have a bachelor's degree in atmospheric science; a bachelor's degree in mathematics, physics, or engineering is excellent preparation for graduate study in atmospheric science. In addition to advanced meteorological coursework, graduate students take courses in other disciplines, such as oceanography and geophysics.
Important Qualities
Analytical skills. Atmospheric scientists must be able to focus for many hours, working with computer models and massive amounts of data to prepare analyses on their findings.
Communication skills. Atmospheric scientists need to be able to write and speak clearly so that their knowledge about the weather can be used effectively by communities and individuals.
Critical-thinking skills. Atmospheric scientists need to be able to analyze the results of their computer models and forecasts to determine the most likely outcome.
Math skills. Atmospheric scientists use calculus, statistics, and other advanced topics in mathematics to develop models used to forecast the weather. They also use mathematical calculations to study the relationship between properties of the atmosphere, such as how changes in air pressure may affect air temperature.
Training
Atmospheric scientists and meteorologists who find employment in the National Weather Service will need to take 200 hours of on-the-job training per year for the first 2 years of employment.
Advancement
Although it is not necessary for entry, a master's degree in atmospheric science can greatly enhance employment opportunities, pay, and advancement potential for meteorologists in government and private industry. A master's degree in business administration (MBA) may be useful for meteorologists interested in working in private industry as consultants who help firms make important business decisions on the basis of their forecasts.