To be a professional astronomer one should start in high school by taking as much math and science as possible. This would include algebra, geometry, trigonometry and calculus. In the sciences, the core courses of Biology, chemistry and physics are essential. (Biology may seem off target but there is the rapidly growing field of astrobiology that would require concentrated study in biology.) In all cases if you have the opportunity to take advanced courses, by all means do so.
A variety of astronomy classes and labs, naturally. Higher level math and physics classes are also a good idea, as well as some classes in other sciences such as chemistry and geology. Different schools have slightly varrying requirements, so it is difficult to give a more specific answer.
There is many different kinds of astronomers. Most are backyard astronomers, this requires only a telescope to get going. You might even be able to find a nearby astronomy club with a communal telescope.
Professional astronomers are usually educated as such from Universities. Most have a background in physics, with a dissertation or thesis in astronomy.
Worldwide there is only approximately 20,000 professional astronomers.
Because most jobs are in basic research and development, a doctoral degree is the usual educational requirement for physicists and astronomers. Master's degree holders qualify for some jobs in applied research and development, whereas bachelor's degree holders often qualify as research assistants or for other occupations related to physics. Education and training. A Ph.D. degree in physics or closely related fiends is typically required for basic research positions, independent research in industry, faculty positions, and advancement to managerial positions. This prepares students for a career in research through rigorous training in theory, methodology, and mathematics. Most physicists specialize in a subfield during graduate school and continue working in that area afterwards. Additional experience and training in a postdoctoral research appointment, although not required, is important for physicists and astronomers aspiring to permanent positions in basic research in universities and government laboratories. Many physics and astronomy Ph.D. holders ultimately teach at the college or university level. Master's degree holders usually do not qualify for basic research positions, but may qualify for many kinds of jobs requiring a physics background, including positions in manufacturing and applied research and development. Increasingly, many master's degree programs are specifically preparing students for physics-related research and development that does not require a Ph.D. degree. These programs teach students specific research skills that can be used in private-industry jobs. In addition, a master's degree coupled with State certification usually qualifies one for teaching jobs in high schools or at 2-year colleges. Those with bachelor's degrees in physics are rarely qualified to fill positions in research or in teaching at the college level. They are, however, usually qualified to work as technicians or research assistants in engineering-related areas, in software development and other scientific fields, or in setting up computer networks and sophisticated laboratory equipment. Increasingly, some may qualify for applied research jobs in private industry or take on nontraditional physics roles, often in computer science, such as systems analysts or database administrators. Some become science teachers in secondary schools. Holders of a bachelor's or master's degree in astronomy often enter an unrelated field. However, they are also qualified to work in planetariums running science shows, to assist astronomers doing research, and to operate space-based and ground-based telescopes and other astronomical instrumentation. (See the statements on engineers, geoscientists, computer programmers, computer scientists and database administrators, computer software engineers, and computer systems analysts elsewhere in the Handbook.) About 760 colleges and universities offer a bachelor's degree in physics. Undergraduate programs provide a broad background in the natural sciences and mathematics. Typical physics courses include electromagnetism, optics, thermodynamics, atomic physics, and quantum mechanics. Approximately 185 colleges and universities have departments offering Ph.D. degrees in physics; about 70 additional colleges offer a master's as their highest degree in physics. Graduate students usually concentrate in a subfield of physics, such as elementary particles or condensed matter. Many begin studying for their doctorate immediately after receiving their bachelor's degree. About 80 universities grant degrees in astronomy, either through an astronomy, physics, or combined physics-astronomy department. Currently, about 40 astronomy departments are combined with physics departments, and the same number are administered separately. With about 40 doctoral programs in astronomy, applicants face considerable competition for available slots. Those planning a career in the subject should have a strong physics background. In fact, an undergraduate degree in either physics or astronomy is excellent preparation, followed by a Ph.D. in astronomy. Many physics and astronomy Ph.D. holders begin their careers in a postdoctoral research position, in which they may work with experienced physicists as they continue to learn about their specialties or develop a broader understanding of related areas of research. Initial work may be under the close supervision of senior scientists. As they gain experience, physicists perform increasingly complex tasks and achieve greater independence in their work. Experience, either in academic laboratories or through internships, fellowships, or work-study programs in industry, also is useful. Some employers of research physicists, particularly in the information technology industry, prefer to hire individuals with several years of postdoctoral experience. Other qualifications. Mathematical ability, problem-solving and analytical skills, an inquisitive mind, imagination, and initiative are important traits for anyone planning a career in physics or astronomy. Prospective physicists who hope to work in industrial laboratories applying physics knowledge to practical problems should broaden their educational background to include courses outside of physics, such as economics, information technology, and business management. Good oral and written communication skills also are important because many physicists work as part of a team, write research papers or proposals, or have contact with clients or customers with nonphysics backgrounds. Advancement.Advancement among physicists and astronomers usually takes the form of greater independence in their work, larger budgets, or tenure in university positions. Others choose to move into managerial positions and become natural science managers (listed elsewhere in the Handbook). Those who pursue management careers spend more time preparing budgets and schedules. Those who develop new products or processes sometimes form their own companies or join new firms to develop these ideas. For the source and more detailed information concerning your request, click on the related links section (U.S. Department of Labor) indicated below.
You first must have a college degree (BS ). Your major should be one of the physical sciences or math A major in physics or astronomy gives the best preparation for your next step which is graduate school. In graduate school all of your courses will be related to the study of astronomy. You will spend about two yrs. to get a masters degree (MS) and about 2 - 4 more yrs. to get a doctorate degree(Ph.D). (some schools allow you to get doctorate without masters but the total time is still 4 - 6 yrs.) At any of these degree stages (college - BS, grad school - MS, grad school - Ph.D) you can quit and probably find work related to astronomy but usually (not always) the term Astronomer means someone with a doctorate degree, Ph.D)
Im doing a project on astronomers and i need to know the answer but u wont tell me
All the Math, Physics, and Chemistry you can stand during the school year.
And then do more of them on your own in the Summer.
That's if you want to be a good one.
all of the mathematics and science (especially physics and chemistry) you can get
socil studys
Physics and maths (science)
Astrobiology is the study of life in the universe, and requires biology, astronomy and geology.
Astrophysics and cosmology are subjects that also studies black holes.
Galileo did tutor students. He worked as a private tutor in Florence where he continued to make experiments on his own
Astrophysics would be a good subject to study, as well as cosmology.
In modern usage they are the study of number in this context.
Math & astronomy.
Astronomy(=
Arithmetic, Geometry, Music, and Astronomy
It consisted of arithmetic music, astronomy, and geometry.
Yes: the two subjects come together as astrophysics.
Greek scientists were interested in many subjects including, but not limited to: Agriculture Astronomy Biology Geometry Medicine Philosophy
At Plato's Academy, students learned a wide range of subjects including philosophy, mathematics, astronomy, and political theory. The curriculum focused on developing critical thinking skills and a deep understanding of moral and ethical principles. Discussions and debates were central to the learning process, encouraging students to question and analyze various intellectual concepts.
Maths,astronomy,physics,chemistry,biology
As with other science or engineering careers, you would probably benefit from learning a lot of math, and science, subjects.
Astrobiology is the study of life in the universe, and requires biology, astronomy and geology.
Astrophysics and cosmology are subjects that also studies black holes.
numbers