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Lesson 4 - Telescopes

Reading Assignment

Summary of Major Space Telescopes

Read Discovery 5-1 and Chapter 5.7.

Infrared

Infrared Astronomy Satellite (IRAS)

Infrared Space Observatory (ISO)

Hubble Space Telescope (HST)

Spitzer Space Telescope (SST)

Visible

HST

Ultraviolet

International Ultraviolet Explorer (IUE)

HST

Extreme Ultraviolet Explorer (EUVE)

Far Ultraviolet Spectrographic Explorer (FUSE)

Galaxy Evolution Explorer (GALEX)

X-rays

Einstein Observatory

Röntgen Satellite (ROSAT)

Chandra X-ray Observatory (CXO)

X-ray Multi-Mirror Newton Satellite (XMM-Newton)

Gamma rays

Compton Gamma-Ray Observatory (CGRO)

Swift Gamma-Ray Burst Explorer

Fermi Gamma-Ray Space Telescope

Math Notes

Light-Gathering Power

Read Chapter 5.2.
( 1 )
LGP is proportional to D2
 
  • Example: UNC's new 4.1-meter diameter SOAR telescope in the Chilean Andes collects light how many times faster than UNC's old 0.6-meter diameter Morehead Observatory telescope in Chapel Hill?
  • Solution: Since LGPSOAR is proportional DSOAR2 and LGPMO is proportional DMO2, then
    LGPSOAR
    LGPMO
    =
    DSOAR
    DMO
    2
    =
    4.1 m
    0.6 m
    2
    = 47.
    Hence, the SOAR telescope collects light 47 times more quickly than the Morehead Observatory telescope.
( 2 )
LG is proportional to D2 × t
 
  • Example: How much more light does one collect with the SOAR telescope in 1 minute than with the Morehead Observatory telescope in 47 minutes?
  • Solution: Since LGSOAR is proportional to
    DSOAR2 × tSOAR
    and LGMO is proportional to
    DMO2 × tMO,
    then
    LGPSOAR
    LGPMO
    =
    DSOAR
    DMO
    2
    ×
    tSOAR
    tMO
    =
    4.1 m
    0.6 m
    2
    ×
    1 min
    47 min
    = 1.
    Hence, the SOAR telescope collects just as much light in 1 minute as the Morehead Observatory telescope collects in 47 minutes.

Resolving Power

Read Chapter 5.2, Chapter 5.4, and Chapter 5.6.
( 3 )
θ = 0.25" ×
(λ / 1 µm)
(D / 1 m)
 
( 4 )
θ = 40' ×
(λ / 1 cm)
(D / 1 m)
 

Exercise 7

I have built six robotic telescopes in the Chilean Andes, called PROMPT, and I am helping others to build similar telescopes around the world. They are called robotic telescopes because no humans are required (except when something breaks). Here is a simple web page that will allow you to request observations of popular southern sky objects with my telescopes in Chile. The password is "astro101". Once PROMPT observes your first object for you, it will email you the image and then allow you to request another observation. Observe at least three objects! If you enjoy this, consider taking ASTR 101L. Most of the labs involve carrying out observations with these and the other robotic telescopes of the Skynet Robotic Telescope Network.

Homework 4

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