Jump to content

User:Marshallsumter/Radiation astronomy/Courses/Principles/Syllabus

From Wikiversity
Aurorae are mostly caused by energetic electrons precipitating into the atmosphere. Credit: Samuel Blanc[1].

While this course may be taken in any order by each student, it may also be taken during a specific calendar period comparable to a university semester such as from January through May (Spring) or August through December (Fall).

This is a general syllabus for the course. Items under development for the course appear below. For specifics on the course content, see principles of radiation astronomy. For specifics per semester, check the appropriate term Spring or Fall.

Course registration

[edit | edit source]

Anyone may enjoy learning by doing with any of the resources of this course at any time. No registration is required. Questions and comments are welcome on any of the course's resource "Discuss" pages. Just click on the "Add topic" button.

Those taking the course for possible credit at their home college or university may register on this resource's "Discuss" page by entering 4 ~s after any comment they care to leave indicating their intent. This will provide their username account here at Wikiversity.

Enjoy learning by doing!

Completion levels

[edit | edit source]

This course is dynamic, but may also be taken as a semester offering by Wikiversity, see the Next course offering for the next formal class period. The current one started August 22, 2022 and will end December 23, 2022.

Each component resource may have a level of completion icon following it based on ≥ 100 kb equals 100 %, or 100 questions is 100 %, the midterm and final are based on 300 questions equals 100 %:

  1. This resource is a stub, which means that pretty well nothing has been done yet. 0-5%.
  2. This resource is just getting off the ground. Please feel welcome to help! 6-15%.
  3. Been started, but most of the work is still to be done - 16-30%.
  4. About halfway there. You may help to clarify and expand it - 31-45%.
  5. Almost complete, but you can help make it more thorough - 46-60%.
  6. Ready for testing by learners and teachers. Please begin! 61-75%.
  7. This resource is considered to be ready for use - 76-90%. R
  8. This resource has reached a high level of completion - 91-100%. C

Those resources such as the lectures, problem sets, or laboratories already at 100 % may no longer have a completion icon.

Reports

[edit | edit source]

The content of each report consists of each students efforts with each laboratory, lesson, or activity where a report is required or requested. Results are included in the lesson page.

For structure of each report, follow the pattern used with manuscripts submitted for refereed journal submission:

  1. title,
  2. author line,
  3. abstract - usually written after the rest of the report is finished, describe briefly what you did,
  4. introduction - describe what is being examined or studied in your own words or quote the laboratory or lesson, your own words are preferred,
  5. experimentation - what you did to accomplish the assignment,
  6. discussion - describe the applicability and shortcomings of your effort, objectivity is important, also include shortcomings of the assignment,
  7. conclusion - what astronomical conclusion if any have you arrived at.

For any report you generate, you can receive review of your efforts by placing a copy of your report as a subpage of your user page, eg, Your:Userpage/Your Report Title, leaving a note on this page's Discuss, or on the resource's "Discuss" page. If you wish to receive review but do not wish to release your efforts into Wikiversity, you may use the Wikiversity email to send me a copy. Your efforts are copyrighted. If your efforts indicate original effort, you may wish to enter them into consideration for free release at the Wikiversity Journals.

Changes

[edit | edit source]
  1. On the date here in the syllabus that a resource for the course is assigned, the material remains unchanged until the course is over. Any changes to a resource while the course is in progress do not affect material the student is responsible for knowing.

Next course offering

[edit | edit source]

The next offering of the full semester course begins on Monday, August 27, 2018, and runs into December 2018. This offering may be found at principles of radiation astronomy/Syllabus/Fall.

The following sections are an experimental form of the course under development for the Spring of 2019, or later.

Lectures under development

[edit | edit source]

Month1 d1, 20yy, Monday

[edit | edit source]
The 15" refractor at Comanche Springs Astronomy Campus had its finder scope (a Stellarvue 80/9D achromat) equipped with a Baader Herschel Solar Wedge and a Solar Continuum Filter for today's transit of Venus. Credit: Jeff Barton from Richardson, TX, USA.{{free media}}
This image is a composite of several types of radiation astronomy: radio, infrared, visual, ultraviolet, soft and hard X-ray. Credit: NASA.{{free media}}

Month1 d2, 20yy, Tuesday

[edit | edit source]
The invisible cloud is plummeting toward our galaxy at nearly 700,000 miles per hour. Credit: Saxton/Lockman/NRAO/AUI/NSF/Mellinger.{{free media}}
Arcs rise above an active region on the surface of the Sun in this series of images taken by the STEREO (Behind) spacecraft. Credit: Images courtesy of the NASA STEREO Science Center.{{free media}}

Month1 Day3, 20yy, Wednesday

[edit | edit source]
Cluster is of the Pneumatic Machine (Antlia, originally Antlia Pneumatica). Credit: Atlas of the Universe.{{free media}}
The universe within 1 billion light-years (307 Mpc) of Earth is shown to contain the local superclusters, galaxy filaments and voids. Credit: Richard Powell.{{free media}}

January 8, 2015, Thursday

[edit | edit source]
  • Problem set: Energy phantoms, solutions including work steps due on January 15, 2015.

January 9, 2015, Friday

[edit | edit source]

January 12, 2015, Monday

[edit | edit source]

January 13, 2015, Tuesday

[edit | edit source]

January 14, 2015, Wednesday

[edit | edit source]

January 15, 2015, Thursday

[edit | edit source]

January 16, 2015, Friday

[edit | edit source]

January 19, 2015, Monday

[edit | edit source]

January 20, 2015, Tuesday

[edit | edit source]
  • Laboratory: Cratering, report is due on January 27, 2015.

January 21, 2015, Wednesday

[edit | edit source]

January 22, 2015, Thursday

[edit | edit source]

January 23, 2015, Friday

[edit | edit source]

January 26, 2015, Monday

[edit | edit source]

January 27, 2015, Tuesday

[edit | edit source]

January 28, 2015, Wednesday

[edit | edit source]

January 29, 2015, Thursday

[edit | edit source]

January 30, 2015, Friday

[edit | edit source]

February 2, 2015, Monday

[edit | edit source]

February 3, 2015, Tuesday

[edit | edit source]
  • Quiz section lecture: First astronomical X-ray source.

February 4, 2015, Wednesday

[edit | edit source]

February 5, 2015, Thursday

[edit | edit source]

February 6, 2015, Friday

[edit | edit source]

February 9, 2015, Monday

[edit | edit source]

February 10, 2015, Tuesday

[edit | edit source]
  • Hourly: Principles of radiation astronomy/Hourly 1 for lectures 1-16. Questions may include quiz section lectures, lessons, problem sets, and laboratories up to today but not today's laboratory or quiz section lecture.

February 11, 2015, Wednesday

[edit | edit source]

February 12, 2015, Thursday

[edit | edit source]

February 13, 2015, Friday

[edit | edit source]

February 16, 2015, Monday

[edit | edit source]

February 17, 2015, Tuesday

[edit | edit source]
  • Laboratory: Galaxies, report is due on February 24, 2015.

February 18, 2015, Wednesday

[edit | edit source]

February 19, 2015, Thursday

[edit | edit source]
  • Problem set: Unusual units, solutions including work steps due on February 26, 2015.

February 20, 2015, Friday

[edit | edit source]

February 23, 2015, Monday

[edit | edit source]

February 24, 2015, Tuesday

[edit | edit source]
  • Quiz section lecture: Interplanetary medium.

February 25, 2015, Wednesday

[edit | edit source]

February 26, 2015, Thursday

[edit | edit source]

February 27, 2015, Friday

[edit | edit source]

March 2, 2015, Monday

[edit | edit source]

March 3, 2015, Tuesday

[edit | edit source]

This quiz is for lectures up through and including violet astronomy (1-24), the prior weeks laboratories, quiz section lectures from the course beginning through and including interplanetary medium, lessons and problem sets through and including those due previously to today.

  • Quiz section lecture: interstellar medium.

March 4, 2015, Wednesday

[edit | edit source]

March 5, 2015, Thursday

[edit | edit source]

March 6, 2015, Friday

[edit | edit source]

March 9, 2015, Monday

[edit | edit source]

March 10, 2015, Tuesday

[edit | edit source]
  • Laboratory: Meteorites, report is due on March 17, 2015.

March 11, 2015, Wednesday

[edit | edit source]

March 12, 2015, Thursday

[edit | edit source]
  • Problem set: Cosmic circuits, solutions including work steps due on March 19, 2015.

March 13, 2015, Friday

[edit | edit source]

March 16, 2015, Monday

[edit | edit source]

March 17, 2015, Tuesday

[edit | edit source]

March 18, 2015, Wednesday

[edit | edit source]

March 19, 2015, Thursday

[edit | edit source]
  • Problem set: Column densities, solutions including work steps due on March 26, 2015.

March 20, 2015, Friday

[edit | edit source]

March 23, 2015, Monday

[edit | edit source]

March 24, 2015, Tuesday

[edit | edit source]

March 25, 2015, Wednesday

[edit | edit source]

March 26, 2015, Thursday

[edit | edit source]
  • Problem set: Spectrographs, solutions including work steps due on April 2, 2015.

March 27, 2015, Friday

[edit | edit source]

March 30, 2015, Monday

[edit | edit source]

March 31, 2015, Tuesday

[edit | edit source]

April 1, 2015, Wednesday

[edit | edit source]
  • Lecture: Balloons for astronomy .

April 2, 2015, Thursday

[edit | edit source]

April 3, 2015, Friday

[edit | edit source]

April 6, 2015, Monday

[edit | edit source]

April 7, 2015, Tuesday

[edit | edit source]

April 8, 2015, Wednesday

[edit | edit source]

April 9, 2015, Thursday

[edit | edit source]

April 10, 2015, Friday

[edit | edit source]

April 13, 2015, Monday

[edit | edit source]

April 14, 2015, Tuesday

[edit | edit source]

April 15, 2015, Wednesday

[edit | edit source]

April 16, 2015, Thursday

[edit | edit source]
  • Problem set: Radiation dosage, solutions including work steps due on April 23, 2015.

April 17, 2015, Friday

[edit | edit source]

April 20, 2015, Monday

[edit | edit source]

November 29, 2016, Tuesday

[edit | edit source]
  • Quiz section lecture: X-ray trigonometric parallax.

April 22, 2015, Wednesday

[edit | edit source]

April 23, 2015, Thursday

[edit | edit source]
  • Problem set: Star jumping, solutions including work steps due on April 30, 2015.

April 24, 2015, Friday

[edit | edit source]

April 27, 2015, Monday

[edit | edit source]

April 28, 2015, Tuesday

[edit | edit source]
  • Hourly: Principles of radiation astronomy/Hourly 3 for lectures 33-48, including quiz section lectures, lessons (except the last one), problem sets (except the last one), and laboratories not included in the first two hourlies.

April 29, 2015, Wednesday

[edit | edit source]

April 30, 2015, Thursday

[edit | edit source]

May 1, 2015, Friday

[edit | edit source]

May 8, 2015, Friday

[edit | edit source]

Alternate examinations that may be used by your college or university for credit (and a grade) in this course will be available from Wikiversity by courier for closed, proctored session testing of proficiency.

Hypotheses

[edit | edit source]
  1. Repetition through learning by doing improves a student's knowledge retention and test-taking skills.

See also

[edit | edit source]
[edit | edit source]

{{Radiation astronomy resources}}{{Charge ontology}}{{Chemistry resources}}{{Physics resources}}

{{Technology resources}}