< Radiation astronomy < Courses < Principles < Syllabus
Samples from comet Wild 2 have been returned to Earth by NASA's Stardust spacecraft. Credit: Erica Hupp/ Merrilee Fellows and William Jeffs, NASA.

For those wishing to take a formally structured undergraduate university semester-length course, this is the Spring offering for principles of radiation astronomy. Resource titles here are conventional although the actual resource may appear slightly different. For example, X-ray astronomy has been changed to Radiation astronomy/X-rays which is a suggestion for naming resources. See Wikiversity:Naming conventions which is a proposal. There are no consensus approves naming conventions at Wikiversity. Re-directs will automatically take you to each resource.

General course details may be found at the Syllabus.

"Scientists have found minerals formed near the sun or other stars in the samples returned to Earth by NASA's Stardust spacecraft in January [2006]."[1]

"The interesting thing is we are finding these high-temperature minerals in materials from the coldest place in the solar system."[2]

"We have found very high-temperature minerals, which supports a particular model where strong bipolar jets coming out of the early sun propelled material formed near to the sun outward to the outer reaches of the solar system."[3]

"It seems that comets are not composed entirely of volatile rich materials but rather are a mixture of materials formed at all temperature ranges, at places very near the early sun and at places very remote from it."[3]

Spring hits for 30 d period

For some 219 course resources such as laboratories (L), keynote lectures, lectures, lessons, problems, or quizzes, the total hits over the 219 elements was 9302 for the last full week in February combined with the first full three weeks in March.

The breakdown per course elements was laboratories (L), 1.96 %, lectures, 76.1 %, lessons, 4.38 %, problems, 2.57 %, or quizzes, 14.9 %.

Highest individual course element is Mathematical astronomy at 1,007.

Modifications in progress

Some resources may produce a search window after clicking on them. Simply back click, copy the name of the resource shown and put it in the search window. The resource will pop up so you can click on it and be taken right to it.

Here's an example: Original research/Radiation astronomy.

January 6, 2020, Monday

  • Lecture: Keynote lectures/Radiation astronomy.

January 7, 2020, Tuesday

  • Quiz section resource: Meteor astronomy.

January 8, 2020, Wednesday

January 9, 2020, Thursday

  • Problem set: Energy phantoms, solutions including work steps due on January 16, 2020.

January 10, 2020, Friday

January 13, 2020, Monday

January 14, 2020, Tuesday

  • Laboratory: Cratering, report is due on January 21, 2020.

January 15, 2020, Wednesday

January 16, 2020, Thursday

January 17, 2020, Friday

January 20, 2020, Monday

January 21, 2020, Tuesday

January 22, 2020, Wednesday

January 23, 2020, Thursday

January 24, 2020, Friday

January 27, 2020, Monday

January 28, 2020, Tuesday

January 29, 2020, Wednesday

January 30, 2020, Thursday

January 31, 2020, Friday

February 3, 2020, Monday

February 4, 2020, Tuesday

February 5, 2020, Wednesday

February 6, 2020, Thursday

February 7, 2020, Friday

February 10, 2020, Monday

February 11, 2020, Tuesday

  • Laboratory: Galaxies, report is due on February 18, 2020.
  • 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 12, 2020, Wednesday

February 13, 2020, Thursday

February 14, 2020, Friday

February 17, 2020, Monday

February 18, 2020, Tuesday

February 19, 2020, Wednesday

February 20, 2020, Thursday

  • Problem set: Unusual units, solutions including work steps due on February 27, 2020.

February 21, 2020, Friday

February 24, 2020, Monday

February 25, 2020, Tuesday

February 26, 2020, Wednesday

February 27, 2020, Thursday

February 28, 2020, Friday

March 2, 2020, Monday

March 3, 2020, Tuesday

  • Laboratory: Meteorites, report is due on March 10, 2020.

This quiz is for lectures up through and including optical 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.

March 4, 2020, Wednesday

  • Lecture: Cosmic-ray astronomy.

March 5, 2020, Thursday

March 6, 2020, Friday

March 9, 2020, Monday

March 10, 2020, Tuesday

March 11, 2020, Wednesday

  • Lecture: Neutron astronomy.

March 12, 2020, Thursday

  • Problem set: Cosmic circuits, solutions including work steps due on March 19, 2020.

March 13, 2020, Friday

March 16, 2020, Monday

March 17, 2020, Tuesday

March 18, 2020, Wednesday

March 19, 2020, Thursday

  • Problem set: Column densities, solutions including work steps due on March 26, 2020.

March 20, 2020, Friday

March 23, 2020, Monday

March 24, 2020, Tuesday

March 25, 2020, Wednesday

March 26, 2020, Thursday

March 27, 2020, Friday

March 30, 2020, Monday

March 31, 2020, Tuesday

April 1, 2020, Wednesday

April 2, 2020, Thursday

April 3, 2020, Friday

April 6, 2020, Monday

April 7, 2020, Tuesday

April 8, 2020, Wednesday

April 9, 2020, Thursday

April 10, 2020, Friday

April 13, 2020, Monday

April 14, 2020, Tuesday

April 15, 2020, Wednesday

April 16, 2020, Thursday

  • Problem set: Radiation dosage, solutions including work steps due on April 23, 2020.

April 17, 2020, Friday

April 20, 2020, Monday

April 21, 2020, Tuesday

April 22, 2020, Wednesday

April 23, 2020, Thursday

  • Problem set: Star jumping, solutions including work steps due on April 30, 2020.

April 24, 2020, Friday

April 27, 2020, Monday

April 28, 2020, Tuesday

  • 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, 2020, Wednesday

April 30, 2020, Thursday

May 1, 2020, Friday

May 4, 2020, Monday

May 5, 2020, Tuesday

May 15, 2020, Friday

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

  1. Courses offered in the Spring have higher student participation than ones offered in the Fall.

See also

References

  1. Erica Hupp, Merrilee Fellows and William Jeffs (January 2006). NASA's Stardust Findings May Alter View of Comet Formation. Pasadena, California USA: NASA/Jet Propulsion Laboratory. Retrieved 2016-11-22.
  2. Donald Brownlee (January 2006). NASA's Stardust Findings May Alter View of Comet Formation. Pasadena, California USA: NASA/Jet Propulsion Laboratory. Retrieved 2016-11-22.
  3. 1 2 Michael Zolensky (January 2006). NASA's Stardust Findings May Alter View of Comet Formation. Pasadena, California USA: NASA/Jet Propulsion Laboratory. Retrieved 2016-11-22.

{{Charge ontology}}{{Chemistry resources}}{{Physics resources}}

{{Radiation astronomy resources}}{{Technology resources}}

This article is issued from Wikiversity. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.