Deck 27: Optical Instruments

A magnifying glass can be made from a diverging lens.

The refractive power of a lens used as a magnifying glass is negative.

In a compound microscope the final image is virtual.

Nearsightedness can be corrected with a diverging lens.

In a nearsighted person the eye makes the light coming into it converge too rapidly.

The near point of a normal human eye is infinity.

Chromatic aberration can be corrected by combining two or more lenses to form a compound lens.

The far point of a normal human eye is infinity.

A magnifying glass produces a virtual image.

A person with a longer near point can see an object as closely with the unaided eye as can a person with the shorter near point.

The difference between a camera and the human eye is that a camera utilizes a fixed focal length lens and the eye does not.

In a compound microscope the final image is formed by the objective.

The process of changing the shape of the lens, and hence adjusting its focal length, is referred as accommodation.

The focal length of the objective of a telescope is much longer than the focal length of the eyepiece.

The focal length of the objective in a microscope is very small as compared to the focal length of the eyepiece.

A person uses corrective glasses of power -8.5 D.
(a) Is this person nearsighted or farsighted?
(b) If the glasses are worn 2.0 cm from the eye, what is the person's far point without glasses?

A magnifying glass of focal length 150. mm is used to examine an old manuscript.
(a) What is the maximum magnification given by the lens?
(b) What is the magnification for relaxed eye-viewing (image at infinity)?

A student wishes to build a telescope. She has available an eyepiece of focal length -5.0 cm. What focal length objective is needed to obtain a magnification of 10x?

What is the maximum angular magnification of a magnifying glass of focal length 10 cm?
(Assume the near point is at 25 cm.)

A terrestrial telescope has focal lengths of 15. mm, 7.5 cm, and 120. cm for eyepiece, erecting lens, and objective respectively.
(a) What is the magnification of the telescope?
(b) Is this an angular magnification or a lateral size magnification?
(c) What is its length (objective to eyepiece distance)?

A person is nearsighted with a near point of 75. cm.
(a) What FOCAL LENGTH is this?
(b) What POWER lens is needed to correct their nearsightedness (assuming distance from lens to eye is negligible)?

A nearsighted person has a near point of 12. cm and a far point of 17. cm. If the lens is 2.0 cm from the eye:
(a) what lens power will enable this person to see distant objects clearly?
(b) what then will be the new near point?

Consider a magnifying glass with a power of 3.0 D.
(a) What is the maximum magnification for a person with a near point of 25. cm?
(b) What is the magnification when viewing with a relaxed eye?

What is the resolution limit at 400. nm, due to diffraction, of the Hubble Space Telescope which has an aperture of 2.4 meters?

A refracting telescope has an eyepiece of focal length -80. mm and an objective of focal length 36. cm. What is the magnification?

An objective lens of a telescope has a 1.90 m focal length. When viewed through this telescope, the moon appears 5.25 times larger than normal. How far apart are the objective lens and the eyepiece when this instrument is focused on the moon?

The world's largest refracting telescope is operated at the Yerkes Observatory in Wisconsin. It has an objective of diameter of 1.02 m. Suppose such an instrument could be mounted on a spy satellite at an elevation of 300. km above the surface of the Earth. What is the minimum separation of two objects on the ground if their images are to be clearly resolved by this lens?
(Assume an average wavelength of 0.55 μm for white light.)