9.1 Telescopes

Cards (90)

  • The magnification of a telescope is determined by the ratio of the focal lengths of the objective lens (or primary mirror) and the eyepiece
  • What type of secondary mirror is used in a Cassegrain telescope?
    Convex
  • Match the mounting type with its characteristic:
    Equatorial mounting ↔️ Aligned with Earth's axis
    Altazimuth mounting ↔️ Moves in altitude and azimuth
  • Refracting telescopes are more compact and easier to align, but they suffer from chromatic aberration.
  • What is the purpose of the objective lens in a refracting telescope?
    Collects and focuses light
  • There are two main types of telescopes: refracting and reflecting.
  • Match the type of telescope with an example:
    Refracting ↔️ Galilean
    Reflecting ↔️ Newtonian
  • Reflecting telescopes use mirrors to focus light.
  • What do reflecting telescopes use to focus light?
    Mirrors
  • The primary mirror in a reflecting telescope is concave.
    True
  • The primary mirror in a reflecting telescope is concave.
    True
  • The tube of a reflecting telescope houses and aligns the primary and secondary mirrors.

    True
  • A telescope is used to observe planets, stars, galaxies, and other celestial phenomena
  • Reflecting telescopes can be made larger than refracting telescopes because lenses have size limitations.
    True
  • Reflecting telescopes do not suffer from chromatic aberration.

    True
  • The objective lens in a refracting telescope is located at the front of the telescope.

    True
  • Match the primary optic with the telescope type:
    Refracting Telescope ↔️ Objective lens
    Reflecting Telescope ↔️ Primary mirror
  • What is the primary mirror in a reflecting telescope?
    Large concave mirror
  • What is a telescope used for?
    Magnify and resolve objects
  • What limits the size of refracting telescopes?
    Size of lenses
  • A telescope's purpose is to observe celestial phenomena too faint to see with the naked eye.

    True
  • Which type of telescope does not suffer from chromatic aberration?
    Reflecting
  • What is the function of the tube in a refracting telescope?
    Align lenses
  • The main components of a reflecting telescope are the primary mirror, secondary mirror, focal length, and tube
  • The focal length of a reflecting telescope is the distance between the primary mirror and the point where light converges to form an image
  • What is the purpose of a telescope?
    Magnify and resolve distant objects
  • Refracting telescopes suffer from chromatic aberration
  • What are examples of refracting telescopes?
    Galilean and Keplerian
  • The main components of a refracting telescope are the objective lens, eyepiece lens, focal length, and tube
  • The tube of a refracting telescope houses and aligns the lenses.

    True
  • Reflecting telescopes use mirrors to focus light.

    True
  • Match the primary optic with its telescope type:
    Refracting telescope ↔️ Objective lens
    Reflecting telescope ↔️ Primary mirror
  • Order the properties based on their relationships:
    1️⃣ Magnification increases with larger objective lens/mirror and smaller eyepiece lens
    2️⃣ Resolution increases with larger objective lens/mirror diameter
  • Cassegrain telescopes are generally more compact than Newtonian telescopes but also more expensive
  • Refracting telescopes use lenses to focus light, while reflecting telescopes use mirrors.

    True
  • The focal length in a refracting telescope is the distance between the objective lens and the point where light converges to form an image.

    True
  • The tube of a refracting telescope houses and aligns the objective and eyepiece lenses.
    True
  • The secondary optic in a reflecting telescope is the secondary mirror.

    True
  • Refracting telescopes use lenses to focus light.

    True
  • What optical defect do refracting telescopes suffer from?
    Chromatic aberration