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== MSc courses<br>  ==
 
== MSc courses<br>  ==
  
The Astronomy MSc degree started in October 1965, some three months before the first member of astronomy faculty ([[People-McCrea wh|Bill McCrea]]) arrived. As recorded in [[People-Tayler rj 30years|Roger Tayler's article about]] the first thirty years of astronomy at Sussex, the first teaching was done by visiting faculty from the Royal Greenwich Observatory (RGO), then at Herstmonceux, supplemented by courses by physics and mathematics faculty. The complete list of courses available to the first cohort of students is:
+
=== The beginning<br>  ===
  
'''1965-66''' (1st year part-time students only; all RGO&nbsp;staff):
+
The Astronomy MSc degree started in October 1965, some three months before the first member of astronomy faculty ([[People-McCrea wh|Bill McCrea]]) arrived. It was a joint programme with the Royal Greenwich Observatory (RGO) at Herstmonceux, up to and including the academic year 1988-89. As recorded in [[People-Tayler rj 30years|Roger Tayler's article]] about the first thirty years of astronomy at Sussex, the first teaching was done by visiting faculty from RGO, supplemented by courses by physics and mathematics faculty. The complete list of courses available to the first cohort of students is:  
  
*Descriptive Astronomy
+
'''1965-66''' (1st year part-time students only; all RGO&nbsp;staff):
*Stellar and Galactic Dynamics
+
 
 +
*Descriptive Astronomy  
 +
*Stellar and Galactic Dynamics  
 
*Stellar Interiors
 
*Stellar Interiors
  
'''1966-67''' (2nd year part-time students, plus 7 full-time students)
+
'''1966-67''' (2nd year part-time students, plus 7 full-time students)  
  
The three courses above, plus 4 additional astronomy courses:
+
The three courses above, plus 4 additional astronomy courses:  
  
*Celestial Mechanics
+
*Celestial Mechanics  
*Elementary Cosmology
+
*Elementary Cosmology  
*Radio Astronomy
+
*Radio Astronomy  
 
*Stellar Atmospheres
 
*Stellar Atmospheres
  
and 6 courses in mathematics and physics, of which the first two were given specially for the MSc and the other four were available to other students:
+
and 6 courses in mathematics and physics, of which the first two were given specially for the MSc and the other four were available to other students:  
  
*Atomic Physics
+
*Atomic Physics  
*Plasma Physics
+
*Plasma Physics  
*Advanced Quantum Mechanics
+
*Advanced Quantum Mechanics  
*Approximation Theory
+
*Approximation Theory  
*Numerical Solution of Differential Equations
+
*Numerical Solution of Differential Equations  
 
*Weak Interactions
 
*Weak Interactions
  
The programme was reorganised for students starting in October 1967. The basic structure was of three 24-lecture compulsory courses plus a number of optional 16-lecture courses (6 or 7 available each year), of which students were expected to study four for examination (however, initially the structure of the examination papers allowed students in practice to answer questions on no more than one optional course; thus was changed for 1974-75 so that they had to answer questions on at least two optional courses). There was also a project, which counted for one-third of the weight.<br>  
+
=== The full programme<br>  ===
 +
 
 +
The programme was reorganised for students starting in October 1967, by which time several other astronomy teaching and research faculty were in place. The basic structure was of three 24-lecture compulsory courses plus a number of optional 16-lecture courses (normally 6 available each year; 7 in the first year), of which students were expected to study four for examination (however, initially the structure of the examination papers allowed students in practice to answer questions on no more than one optional course; thus was changed for 1974-75 so that they had to answer questions on at least two optional courses). There was also a project, which counted for one-third of the weight.<br>  
  
 
From 1967-8 to 1974-5, there were three three-hour examination papers; each paper had 4 questions in Section A (on one of the compulsory courses), plus a Section B containing one question on each of the compulsory courses. Initially the rubric was to answer 3 questions, not more than 2 from each section; in 1974-5 this was changed to 4 questions, with 2 questions from each section; the question lengths were adjusted from 60 to 45 minutes.  
 
From 1967-8 to 1974-5, there were three three-hour examination papers; each paper had 4 questions in Section A (on one of the compulsory courses), plus a Section B containing one question on each of the compulsory courses. Initially the rubric was to answer 3 questions, not more than 2 from each section; in 1974-5 this was changed to 4 questions, with 2 questions from each section; the question lengths were adjusted from 60 to 45 minutes.  
  
From 1975-6 to 1996-7, after the addition of the fourth compulsory course, the structure of the three papers was altered. Each of Papers I and II consisted of two sections, each contianing 4 questions on one of the compulsory courses. Paper III&nbsp;contained 3 questions on each of the theoretical options, plus two questions on the Instrumental Astronomy course in the years when it ran (there was also a piece of assessed practical work during the course).
+
From 1975-6 to 1996-7, after the addition of the fourth compulsory course, the structure of the three papers was altered. Each of Papers I and II consisted of two sections, each contianing 4 questions on one of the compulsory courses. Paper III&nbsp;contained 3 questions on each of the theoretical options, plus two questions on the Instrumental Astronomy course in the years when it ran (there was also a piece of assessed practical work during the course).From 1975-6, the number of options was reduced to 5 each year (4 from 1988-90).<br>
 +
 
 +
From 1997-8 to 2001-2, because of the national withdrawal of funding for Advanced Course Studentships, the programme was further re-organised, to allow the sharing of teaching with undergraduate students. The four compulsory courses were changed, and each was examined separately (Fundamentals of Astronomy by coursework only).<br>
 +
 
 +
In 2002-3 a new programme in Cosmology was added, with a structure that involved theoretical physics courses. Many options became available, and the structure became more complicated and will not be described here. The current programme structures can be found on the department website.
 +
 
 +
The '''compulsory courses''' were as follows.<br>
  
The '''compulsory courses''' were:<br>
+
''From 1967-8 to 1996-7'':  
  
 
*Introduction to Astronomy (a general overview of observational material, originally given by Bernard Pagel and subsequently by Robert Smith, Nigel Holloway and others)<br>  
 
*Introduction to Astronomy (a general overview of observational material, originally given by Bernard Pagel and subsequently by Robert Smith, Nigel Holloway and others)<br>  
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*Structure of Stars (which included Stellar Atmospheres) (given for a long time by Roger Tayler, from 1967-8, probably almost until the major revision of the degree in 1997)
 
*Structure of Stars (which included Stellar Atmospheres) (given for a long time by Roger Tayler, from 1967-8, probably almost until the major revision of the degree in 1997)
  
*High Energy Astrophysics - added in 1975-76: see above (given initially by and at the instigation of Nigel Holloway; later by Roger Tayler, then Peter Thomas)
+
*High Energy Astrophysics &amp;&nbsp;Cosmology - added in 1975-76: see above (given initially by and at the instigation of Nigel Holloway; later by Roger Tayler, then Peter Thomas)<br>
 +
 
 +
''From 1997-8 to 2001-2''<br>
 +
 
 +
*Fundamentals of Astronomy (a replacement for Introduction to Astronomy, run as a guided reading course; the only course now for MSc students only; given by Robert Smith)<br>
 +
*Galactic Structure (same lecture course as for undergraduates, but with different assessment)<br>
 +
*Cosmology (same lecture course as for undergraduates, but with different assessment)<br>
 +
*Stellar Structure (same lecture course as for undergraduates, but with different assessment)<br>
  
An almost complete list of '''optional courses '''given over the years, with the lecturers where still known (names with ? are those listed on the board of examiners in the relevant year who are known to have the appropriate expertise), is:<br>  
+
A complete list of '''optional courses '''given between the years 1967-8 and 2001-2, with the lecturers where known (names with&nbsp;? are those listed on the board of examiners in the relevant year who are known to have the appropriate expertise; * denotes research fellow), is:<br>  
  
*Abundance of the Elements (Roger Tayler?)
+
*Abundance[s] of the Elements (Bernard Pagel)  
*Accretion Discs (Robert Smith)  
+
*Accretion Discs (Robert Smith 1985-6, 1992-4, Carole Haswell 1995-7)
*Astrophysical Plasmas (Roger Tayler)
+
*Active Galaxies and Quasars (Michael Penston 1984-5)<br>
*Cataclysmic Variables} (Robert Smith)  
+
*Astrometry and Galactic Astronomy (Andrew Murray and Derek Jones)<br>
*Celestial Mechanics (Michael Cummings?)
+
*Astrophysical Plasmas (Roger Tayler 19, Richard Rijnbeek 1996-7)  
*Close Binary Stars} (Robert Smith)  
+
*Cataclysmic Binaries (Robert Smith 1989-90)<br>
*Cosmology (Bill McCrea)
+
*Cataclysmic Variables (Robert Smith)  
*Emission-line Objects (Michael Penston?)
+
*Celestial Mechanics (Michael Cummings?)  
*Evolution of the Solar System (Bill McCrea)
+
*Close Binaries (Alistair Robertson)<br>
*Galactic Kinematics and Structure (Derek Jones and Andrew Murray)
+
*Close Binary Stars (Robert Smith 1982-4, 1988-9)
*High Energy Astrophysics (Nigel Holloway) (1974-75 - then became a compulsory course: see above)
+
*Clusters of Galaxies (Peter Thomas 1991-3)<br>
*Instrumental Astronomy (a 2-week residential course at RGO, taught by a variety of RGO&nbsp;staff)  
+
*Cosmic Electrodynamics (Leon Mestel 1987-8)<br>
*Interstellar Medium (Roger Tayler? later perhaps Michael Penston)
+
*Cosmic Microwave Background (Bernard Jones, visitor, 1990-1)<br>
 +
*Cosmology (Bill McCrea)  
 +
*Cosmology and Particles (John Barrow 1988-9, 1990-1)<br>
 +
*Distant Universe (Jon Loveday or Kathy Romer? 2000-2)
 +
*Elementary Particle Physics, Astrophysics and Cosmology (Roger Tayler?)<br>
 +
*Elementary Particles and Cosmology (John Barrow)<br>
 +
*Emission-line Objects (Michael Penston? or Keith Taylor?)  
 +
*Emission-line Objects in Astrophysics (Michael Penston 1986-7)<br>
 +
*Evolution of the Solar System (Bill McCrea)  
 +
*Experimental Tests of General Relativity (John Barrow)<br>
 +
*Extragalactic Astronomy (Elena and Roberto Terlevich 1988-89)<br>
 +
*Formation of Stars and Galaxies (Leon Mestel)<br>
 +
*Galactic Kinematics and Structure (Derek Jones and Andrew Murray , 1987-8)
 +
*Galactic Nuclei (Mark Bailey*)<br>
 +
*Galaxy Formation (Peter Thomas 1993-5)<br>
 +
*Gaseous Nebulae (Bernard Pagel) (course not given in full, because of lack of audience)<br>
 +
*General Relativity (Jim Byrne 1997-8,&nbsp;? 1998-2002)<br>
 +
*Gravitational Astrophysics (Nigel Holloway)<br>
 +
*Gravitational Waves (John Barrow 1985-6)<br>
 +
*High Energy Astrophysics (Nigel Holloway) (1974-75 - then became a compulsory course: see above)  
 +
*Inflationary Cosmology (John Barrow 1987-88, 1989-90)<br>
 +
*Instrumental Astronomy (a 2-week residential course at RGO, taught by a variety of RGO&nbsp;staff 1967-88)  
 +
*Interacting Binary Stars (Chris Campbell* 1986-7)<br>
 +
*Interstellar Medium (Roger Tayler? later perhaps Michael Penston, and later certainly Max Pettini, Peter Thomas 1997-8)
 +
*Large-scale Structure and Galaxy Formation (Kandu Subramanian* 1996-7)<br>
 
*Mass Loss and Stellar Winds (Robert Smith)  
 
*Mass Loss and Stellar Winds (Robert Smith)  
 +
*Model Testing in Astronomy (Martin Hendry* 1994-6)<br>
 +
*Neutrinos in Cosmology (John Barrow 1991-2)<br>
 
*Non-spherical Stars (Robert Smith)  
 
*Non-spherical Stars (Robert Smith)  
*Nucleogenesis (Frank Clifford?)
+
*Nucleogenesis (Frank Clifford?)  
*Origin of the Chemical Elements (Roger Tayler or Bernard Pagel)
+
*Observational Cosmology (Rodney Smith* 1986-7)<br>
*Peculiar Galaxies and Quasars (Michael Penston?)
+
*Optical Instrumentation and Data Analysis (Andrew Cameron* 1992-4)<br>
*Radio Astronomy (Richard Bingham?)
+
*Origin of the [Chemical] Elements (Frank Clifford)  
*Radio Astronomy and Radio Sources (?)
+
*Peculiar Galaxies and Quasars (Michael Penston?)  
*Relativistic Astrophysics (Leon Mestel?)
+
*Physics of Emission-Line Sources (Keith Taylor 1985-6)<br>
*Relativity and Astrophysics (John Jackson?)
+
*Physics of Pulsars (Leon Mestel 1988-9)<br>
*Spiral Structure and Galactic Nuclei (Donald Lynden-Bell? or Bernard Pagel?)
+
*Primordial Nucleosynthesis (John Barrow 1993-4)<br>
*Star Clusters (Bob Dickens?)
+
*Radio and Infrared Astronomy (Rob Fender*&nbsp;1996-7)<br>
*Star Formation (Paul Murdin or Michael Penston? later Robert Smith)  
+
*Radio Astronomy (Richard Bingham?)  
*Stellar Evolution (John Hazlehurst, then Robert Smith)  
+
*Radio Astronomy and Radio Sources (?)  
 +
*Relativistic Astrophysics (Leon Mestel?)  
 +
*Relativity and Astrophysics (John Jackson*)
 +
*Solar and Stellar Magnetic Fields (Moira Jardine* 1992-3)<br>
 +
*Solar System Astronomy (Paul Roche 1995-6)<br>
 +
*Solar-Stellar Connection (Andrew Cameron* 1989-92)<br>
 +
*Space Plasma Physics (Sandra Chapman 1990-1, Richard Rijnbeek 1997-9)<br>
 +
*Spectroscopic Astrophysics (Peter Schroeder 2000-1)  
 +
*Spiral Structure and Galactic Nuclei (Donald Lynden-Bell? or Bernard Pagel?)  
 +
*Star Clusters (Bob Dickens?, Simon Clarke 1998-9)  
 +
*Star Formation (Paul Murdin or Michael Penston? Robert Smith 1975-6, Leon Mestel 1985-6, 1991-2)  
 +
*Stellar Evolution (John Hazlehurst 1967-8, 1969-70, 1971-2, Robert Smith 1973-75, 1986-88, 1994-95, Leon Mestel 1989-91)  
 
*Stellar Hydrodynamics (Robert Smith)  
 
*Stellar Hydrodynamics (Robert Smith)  
*Stellar Stability (John Hazlehurst? later Robert Smith)
+
*Stellar Stability (John Hazlehurst 1972-3, Robert Smith 1977-78, 1979-80, 1991-92, 1995-96)  
*Stellar Stability and Variable Stars (John Hazlehurst?)<br><br>
+
*Stellar Stability and Variable Stars (John Hazlehurst 1968-9)<br>
 +
*Stellar Winds and Mass Loss (Robert Smith)<br>
 +
*The Early Universe (Andrew Liddle*&nbsp;1992-5, David Wands* 1995-6, John Barrow 1996-9,&nbsp;? 1999-2000)<br>
 +
*The Regularity of the Universe (John Barrow)<br>  
 +
*X-Ray Astronomy (Nigel Holloway)<br>
 +
*X-ray and Gamma-ray Astronomy (Paul Roche 1994-5)<br><br>
 +
 
 +
<br>
  
 
== Undergraduate courses<br>  ==
 
== Undergraduate courses<br>  ==

Revision as of 16:32, 9 June 2011

Astronomy teaching at Sussex

MSc courses

The beginning

The Astronomy MSc degree started in October 1965, some three months before the first member of astronomy faculty (Bill McCrea) arrived. It was a joint programme with the Royal Greenwich Observatory (RGO) at Herstmonceux, up to and including the academic year 1988-89. As recorded in Roger Tayler's article about the first thirty years of astronomy at Sussex, the first teaching was done by visiting faculty from RGO, supplemented by courses by physics and mathematics faculty. The complete list of courses available to the first cohort of students is:

1965-66 (1st year part-time students only; all RGO staff):

  • Descriptive Astronomy
  • Stellar and Galactic Dynamics
  • Stellar Interiors

1966-67 (2nd year part-time students, plus 7 full-time students)

The three courses above, plus 4 additional astronomy courses:

  • Celestial Mechanics
  • Elementary Cosmology
  • Radio Astronomy
  • Stellar Atmospheres

and 6 courses in mathematics and physics, of which the first two were given specially for the MSc and the other four were available to other students:

  • Atomic Physics
  • Plasma Physics
  • Advanced Quantum Mechanics
  • Approximation Theory
  • Numerical Solution of Differential Equations
  • Weak Interactions

The full programme

The programme was reorganised for students starting in October 1967, by which time several other astronomy teaching and research faculty were in place. The basic structure was of three 24-lecture compulsory courses plus a number of optional 16-lecture courses (normally 6 available each year; 7 in the first year), of which students were expected to study four for examination (however, initially the structure of the examination papers allowed students in practice to answer questions on no more than one optional course; thus was changed for 1974-75 so that they had to answer questions on at least two optional courses). There was also a project, which counted for one-third of the weight.

From 1967-8 to 1974-5, there were three three-hour examination papers; each paper had 4 questions in Section A (on one of the compulsory courses), plus a Section B containing one question on each of the compulsory courses. Initially the rubric was to answer 3 questions, not more than 2 from each section; in 1974-5 this was changed to 4 questions, with 2 questions from each section; the question lengths were adjusted from 60 to 45 minutes.

From 1975-6 to 1996-7, after the addition of the fourth compulsory course, the structure of the three papers was altered. Each of Papers I and II consisted of two sections, each contianing 4 questions on one of the compulsory courses. Paper III contained 3 questions on each of the theoretical options, plus two questions on the Instrumental Astronomy course in the years when it ran (there was also a piece of assessed practical work during the course).From 1975-6, the number of options was reduced to 5 each year (4 from 1988-90).

From 1997-8 to 2001-2, because of the national withdrawal of funding for Advanced Course Studentships, the programme was further re-organised, to allow the sharing of teaching with undergraduate students. The four compulsory courses were changed, and each was examined separately (Fundamentals of Astronomy by coursework only).

In 2002-3 a new programme in Cosmology was added, with a structure that involved theoretical physics courses. Many options became available, and the structure became more complicated and will not be described here. The current programme structures can be found on the department website.

The compulsory courses were as follows.

From 1967-8 to 1996-7:

  • Introduction to Astronomy (a general overview of observational material, originally given by Bernard Pagel and subsequently by Robert Smith, Nigel Holloway and others)
  • Structure of Galaxies (which included Stellar Dynamics) (initially given by Donald Lynden-Bell; later by Robert Smith, John Barrow and others)
  • Structure of Stars (which included Stellar Atmospheres) (given for a long time by Roger Tayler, from 1967-8, probably almost until the major revision of the degree in 1997)
  • High Energy Astrophysics & Cosmology - added in 1975-76: see above (given initially by and at the instigation of Nigel Holloway; later by Roger Tayler, then Peter Thomas)

From 1997-8 to 2001-2

  • Fundamentals of Astronomy (a replacement for Introduction to Astronomy, run as a guided reading course; the only course now for MSc students only; given by Robert Smith)
  • Galactic Structure (same lecture course as for undergraduates, but with different assessment)
  • Cosmology (same lecture course as for undergraduates, but with different assessment)
  • Stellar Structure (same lecture course as for undergraduates, but with different assessment)

A complete list of optional courses given between the years 1967-8 and 2001-2, with the lecturers where known (names with ? are those listed on the board of examiners in the relevant year who are known to have the appropriate expertise; * denotes research fellow), is:

  • Abundance[s] of the Elements (Bernard Pagel)
  • Accretion Discs (Robert Smith 1985-6, 1992-4, Carole Haswell 1995-7)
  • Active Galaxies and Quasars (Michael Penston 1984-5)
  • Astrometry and Galactic Astronomy (Andrew Murray and Derek Jones)
  • Astrophysical Plasmas (Roger Tayler 19, Richard Rijnbeek 1996-7)
  • Cataclysmic Binaries (Robert Smith 1989-90)
  • Cataclysmic Variables (Robert Smith)
  • Celestial Mechanics (Michael Cummings?)
  • Close Binaries (Alistair Robertson)
  • Close Binary Stars (Robert Smith 1982-4, 1988-9)
  • Clusters of Galaxies (Peter Thomas 1991-3)
  • Cosmic Electrodynamics (Leon Mestel 1987-8)
  • Cosmic Microwave Background (Bernard Jones, visitor, 1990-1)
  • Cosmology (Bill McCrea)
  • Cosmology and Particles (John Barrow 1988-9, 1990-1)
  • Distant Universe (Jon Loveday or Kathy Romer? 2000-2)
  • Elementary Particle Physics, Astrophysics and Cosmology (Roger Tayler?)
  • Elementary Particles and Cosmology (John Barrow)
  • Emission-line Objects (Michael Penston? or Keith Taylor?)
  • Emission-line Objects in Astrophysics (Michael Penston 1986-7)
  • Evolution of the Solar System (Bill McCrea)
  • Experimental Tests of General Relativity (John Barrow)
  • Extragalactic Astronomy (Elena and Roberto Terlevich 1988-89)
  • Formation of Stars and Galaxies (Leon Mestel)
  • Galactic Kinematics and Structure (Derek Jones and Andrew Murray , 1987-8)
  • Galactic Nuclei (Mark Bailey*)
  • Galaxy Formation (Peter Thomas 1993-5)
  • Gaseous Nebulae (Bernard Pagel) (course not given in full, because of lack of audience)
  • General Relativity (Jim Byrne 1997-8, ? 1998-2002)
  • Gravitational Astrophysics (Nigel Holloway)
  • Gravitational Waves (John Barrow 1985-6)
  • High Energy Astrophysics (Nigel Holloway) (1974-75 - then became a compulsory course: see above)
  • Inflationary Cosmology (John Barrow 1987-88, 1989-90)
  • Instrumental Astronomy (a 2-week residential course at RGO, taught by a variety of RGO staff 1967-88)
  • Interacting Binary Stars (Chris Campbell* 1986-7)
  • Interstellar Medium (Roger Tayler? later perhaps Michael Penston, and later certainly Max Pettini, Peter Thomas 1997-8)
  • Large-scale Structure and Galaxy Formation (Kandu Subramanian* 1996-7)
  • Mass Loss and Stellar Winds (Robert Smith)
  • Model Testing in Astronomy (Martin Hendry* 1994-6)
  • Neutrinos in Cosmology (John Barrow 1991-2)
  • Non-spherical Stars (Robert Smith)
  • Nucleogenesis (Frank Clifford?)
  • Observational Cosmology (Rodney Smith* 1986-7)
  • Optical Instrumentation and Data Analysis (Andrew Cameron* 1992-4)
  • Origin of the [Chemical] Elements (Frank Clifford)
  • Peculiar Galaxies and Quasars (Michael Penston?)
  • Physics of Emission-Line Sources (Keith Taylor 1985-6)
  • Physics of Pulsars (Leon Mestel 1988-9)
  • Primordial Nucleosynthesis (John Barrow 1993-4)
  • Radio and Infrared Astronomy (Rob Fender* 1996-7)
  • Radio Astronomy (Richard Bingham?)
  • Radio Astronomy and Radio Sources (?)
  • Relativistic Astrophysics (Leon Mestel?)
  • Relativity and Astrophysics (John Jackson*)
  • Solar and Stellar Magnetic Fields (Moira Jardine* 1992-3)
  • Solar System Astronomy (Paul Roche 1995-6)
  • Solar-Stellar Connection (Andrew Cameron* 1989-92)
  • Space Plasma Physics (Sandra Chapman 1990-1, Richard Rijnbeek 1997-9)
  • Spectroscopic Astrophysics (Peter Schroeder 2000-1)
  • Spiral Structure and Galactic Nuclei (Donald Lynden-Bell? or Bernard Pagel?)
  • Star Clusters (Bob Dickens?, Simon Clarke 1998-9)
  • Star Formation (Paul Murdin or Michael Penston? Robert Smith 1975-6, Leon Mestel 1985-6, 1991-2)
  • Stellar Evolution (John Hazlehurst 1967-8, 1969-70, 1971-2, Robert Smith 1973-75, 1986-88, 1994-95, Leon Mestel 1989-91)
  • Stellar Hydrodynamics (Robert Smith)
  • Stellar Stability (John Hazlehurst 1972-3, Robert Smith 1977-78, 1979-80, 1991-92, 1995-96)
  • Stellar Stability and Variable Stars (John Hazlehurst 1968-9)
  • Stellar Winds and Mass Loss (Robert Smith)
  • The Early Universe (Andrew Liddle* 1992-5, David Wands* 1995-6, John Barrow 1996-9, ? 1999-2000)
  • The Regularity of the Universe (John Barrow)
  • X-Ray Astronomy (Nigel Holloway)
  • X-ray and Gamma-ray Astronomy (Paul Roche 1994-5)


Undergraduate courses

Undergraduate teaching began in a small way, with one third-year option (Stellar Structure) taught by Roger Tayler, starting in 1967 or 1968. This was available to all students in the school (then MAPS) and proved very popular. Roger, until 1970 the only teaching member of faculty, also supervised third year projects in astronomy for physicists. He believed at that stage that it was not possible to study serious astronomy until the third year, after a good grounding in physics and mathematics. This view coloured the structure of the first undergraduate degree programme involviing astronomy: a degree called Physics with Mathematics and Astronomy (PMAst), where the astronomy content consisted of three third year courses in astronomy plus a third year astronomy project. The initial three courses were:

  • Galactic Structure
  • Interstellar Medium (this was only available to PMAst students; it was subsequently shortened and became a second-year summer-term course)
  • Stellar Structure

Later options included Relativity and Cosmology.