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Astronomy and Black Holes

Undergraduate | RMI-SCI200 | 2021

Course information for 2021 intake

View information for 2022 course intake

Revolve around the origin and development of the galaxy and universe. Navigate a course in astronomy, astrophysics and cosmology. Explore the life cycle of stars and the gravitational effects of black holes. Discuss the Big Bang hypothesis. 

Study method
100% online
Assessments
100% online
Entry requirements
Prior study needed
Duration
13 weeks

HECS-HELP and FEE-HELP available

Astronomy and Black Holes

About this subject

  • The primary capabilities developed by this subject are:

    Application capability: solve problems using knowledge of the basic laws of physics in an astronomical context; calculate the age and size of the observable universe; calculate basic properties of stars at all stages of their lifecycle. 

    • Knowledge capability: understand the basics of astronomical observation, and the determination of stellar properties; understand the processes leading to the formation and lifecycle of stars; understand stellar death and the formation of black holes from gravitational collapse; understand the meaning of singularity, event horizon and Schwarzschild radius and how they relate to Black Holes; describe and predict the basic properties of the universe, its age, size and fate; understand the fundamental assumptions of modern cosmology.
    • Analysis capability: differentiate between the different forces governing stellar processes, including thermonuclear reactions, gravitational collapse, stellar pressure and the Pauli exclusion principle; be able to classify different stars based on simple spectral data and predict the future form this star will take using an H-R diagram; explain the Big Bang hypothesis and contrast this to competing theories of the formation of our Universe; relate the observational evidence for Black Holes to the theory of their size and effect on surrounding matter.
    • Comprehension capability: grasp the tension between thermonuclear reactions and gravitational collapse which drives stars throughout their life and which produces cataclysmic results in the death of some; differentiate between the quantities which characterise our Universe and explain what each measures.

Entry requirements

Others

A good working knowledge of secondary school mathematics is assumed

Additionally, secondary school physics; or the completion of a first year (level 1) science subject; or completion of any second year (level 2) university subject, are recommended prior to attempting this subject.

Additional requirements

No additional requirements

Study load

0.125 EFTSL
This is in the range of 10 to 12 hours of study each week.

Equivalent full time study load (EFTSL) is one way to calculate your study load. One (1.0) EFTSL is equivalent to a full-time study load for one year.

Find out more information on Commonwealth Loans to understand what this means to your eligibility for financial support.

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