All GRE Subject Test: Physics Resources
Example Questions
Example Question #3 : Optics
The focal length of a thin convex lens is . A candle is placed to the left of the lens. Approximately where is the image of the candle?
to the left of the lens
to the right of the lens
to the left of the lens
to the right of the lens
No image is created
to the right of the lens
Because the object is beyond 2 focal lengths of the lens, the image must be between 1 and 2 focal lengths on the opposite side. Therefore, the image must be between on the right side of the lens.
Alternatively, one can apply the thin lens equation:
Where is the object distance and is the focal length . Plug in these values and solve.
Example Question #1 : Electromagnetics, Waves, And Optics
A candle tall is placed to the left of a thin convex lens with focal length . What is the height and orientation of the image created?
, inverted
, upright
No image is created.
, upright
, inverted
, inverted
First, find the image distance from the thin lens equation:
Magnification of a lens is given by:
Where and are the image height and object height, respectively. The given object height is , which we can use to solve for the image height:
Because the sign is negative, the image is inverted.
Example Question #1 : Optics
Sirius is a binary star system, consisting of two white dwarfs with an angular separation of 3 arcseconds. What is the approximate minimum diameter lens needed to resolve the two stars in Sirius for an observation at ?
The Rayleigh Criterion gives the diffraction limit on resolution of a particular lens at a particular wavelength:
Where theta is the angular resolution in radians, is the wavelength of light, and is the diameter the lens in question. Solving for and converting 3 arcseconds into radians, one can approximate the diameter to be about :
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