The application of statistical methods to solve real-world problems. In astronomy, this might involve analyzing data from telescopes or spacecraft to draw meaningful conclusions about the universe.

Undergrad

Certificate in Science: Statistics - University of Canterbury

Diploma in Science: Statistics - University of Canterbury

Bachelor of Science: Statistics - University of Auckland

Bachelor of Science: Statistics - University of Canterbury

Bachelor of Science: Statistics - University of Auckland

Bachelor of Science: Statistics - University of Otago

Bachelor of Science: Statistics - Massey University

Graduate Certificate: Statistics - University of Waikato

Graduate Diploma: Statistics - University of Auckland

Graduate Diploma: Statistics - University of Canterbury

Graduate Diploma: Statistics - University of Waikato

Graduate Diploma: Statistics - University of Otago

Postgrad

Postgraduate Certificate: Statistics - University of Canterbury

Postgraduate Certificate: Statistics - University of Waikato

Postgraduate Diploma: Statistics - University of Otago

Postgraduate Diploma: Statistics - University of Auckland

Postgraduate Diploma: Statistics - University of Canterbury

Postgraduate Diploma: Statistics - University of Waikato

Master of Applied Statistics - Victoria University of Wellington

Master of Applied Science: Statistics - University of Otago

Master of Science (Research): Statistics - University of Waikato

Master of Mathematical Sciences: Statistics - University of Canterbury

Master of Science: Statistics - University of Auckland

Master of Science: Statistics - Massey University

PhD: Statistics - University of Auckland

PhD: Statistics - University of Canterbury

PhD: Statistics - University of Waikato

PhD: Statistics - University of Otago

The study of the origin, evolution, and distribution of life in the universe. Astrobiology helps us understand the conditions necessary for life to exist on other planets or moons.

Courses

Astro 200 - University of Auckland

As this is a relatively new and growing field, the pathway to becoming an astrobiologist is to start with a Biology degree.

The study of the chemical composition and reactions of celestial objects. Astrochemistry helps us understand how the building blocks of life might form in space.

Astrochemistry is a very specialized field. Astrochemists need a strong background in chemistry, astrophysics, or related fields, as well as data analysis skills. Research positions typically require a Ph.D. and specialized experience in fields such as geosciences, physics, mathematics, or chemical biology. Collaboration with experts in other fields benefits from this interdisciplinary background. Observational instrument work requires at least a Bachelor's Degree in Engineering, Radio Physics or related fields, while modeling physical processes requires top-notch programming skills and expertise in theoretical physics, astrophysics, and mathematics.

The branch of astronomy that deals with the physical and chemical properties of celestial objects and their interactions with the surrounding environment. Astrophysics helps us understand the behavior of stars, galaxies, and other celestial objects.

The measurement of the positions and motions of celestial objects. Astrometry helps us create maps of the universe and track the movements of planets and stars.

The design and construction of aircraft, spacecraft, and related systems. Aerospace engineering is essential to building and launching telescopes and other astronomical instruments.

The study of climate and its variability over time. In astronomy, climatology might be used to understand how changes in the Earth's climate affect observations of the night sky, or the conditions on other planets.

The use of computer simulations and models to study astronomical phenomena. Computational astronomy helps us test theories and predictions about the universe.

The study of computers and computational systems. In astronomy, computer science is essential to developing algorithms and software for processing and analyzing astronomical data.

The study of the origin, evolution, and structure of the universe. Cosmology helps us understand the nature of dark matter, dark energy, and the Big Bang.

The design and application of electrical systems and devices. In astronomy, electrical engineering is important for designing and building electronics for telescopes and spacecraft.

The application of engineering principles to protect and improve the natural environment. In astronomy, environmental engineering might be used to reduce light pollution on Earth, or potentially with terraforming other planets.

The study of the physical properties and processes of the Earth. In astronomy, geophysics might be used to understand the Earth's magnetic field and its effects on astronomical observations, or the habitability of other planets.

The collection, analysis, and interpretation of geographic data. In astronomy, GIS might be used to create maps of the night sky or to study the distribution of galaxies and other celestial objects.

Ripples in spacetime caused by the acceleration of massive objects. The detection of gravitational waves has opened up a new window on the universe and allowed us to study phenomena such as black holes and neutron stars.

The design and application of advanced mechanical and electronic systems. In astronomy, mechatronics engineering might be used to build complex instruments for telescopes or spacecraft.

The collection and analysis of data from astronomical observations. Observational astronomy is essential for studying celestial objects and phenomena.

The study of planets, moons, and other objects in our solar system and beyond. Planetary science helps us understand the history and evolution of our solar system and the potential for life on other planets.

The study of celestial objects and phenomena at different wavelengths of the electromagnetic spectrum. Studying different wavelengths allows us to understand different aspects of the universe.

The body of law that governs space-related activities and is essential for ensuring the peaceful and responsible exploration and use of space.

The field of medicine that studies the effects of space travel on the human body and develops methods to keep astronauts healthy during long-term space missions.