A compound microscope has two convex lenses, separated by 10.0 cm as shown in the diagram below. The objective lens has a focal length of 1.5 cm, and the eyepiece has a focal length of 6.0 cm. The object under study is placed 2.0 cm from the objective lens. 10.0 cm 2.0 cm object eye Eyepiece Objective lens Using the lens formulae, calculate the: a. distance from the objective lens to the image it produces. b. distance from the eyepiece to the image it produces. c. microscope's magnifying power.

A compound microscope has two convex lenses, separated by 10.0 cm as shown in the diagram below. The objective lens has a focal length of 1.5 cm, and the eyepiece has a focal length of 6.0 cm. The object under study is placed 2.0 cm from the objective lens. 10.0 cm 2.0 cm object eye Eyepiece Objective lens Using the lens formulae, calculate the: a. distance from the objective lens to the image it produces. b. distance from the eyepiece to the image it produces. c. microscope's magnifying power.

University Physics Volume 3

17th Edition

ISBN:9781938168185

Author:William Moebs, Jeff Sanny

Publisher:William Moebs, Jeff Sanny

Chapter2: Geometric Optics And Image Formation

Section: Chapter Questions

Problem 100P: Unreasonable Results Your friends show you an image through a microscope. They tell you that the...

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Concept explainers

Ray Optics

Optics is the study of light in the field of physics. It refers to the study and properties of light. Optical phenomena can be classified into three categories: ray optics, wave optics, and quantum optics. Geometrical optics, also known as ray optics, is an optics model that explains light propagation using rays. In an optical device, a ray is a direction along which light energy is transmitted from one point to another. Geometric optics assumes that waves (rays) move in straight lines before they reach a surface. When a ray collides with a surface, it can bounce back (reflect) or bend (refract), but it continues in a straight line. The laws of reflection and refraction are the fundamental laws of geometrical optics. Light is an electromagnetic wave with a wavelength that falls within the visible spectrum.

Converging Lens

Converging lens, also known as a convex lens, is thinner at the upper and lower edges and thicker at the center. The edges are curved outwards. This lens can converge a beam of parallel rays of light that is coming from outside and focus it on a point on the other side of the lens.

Plano-Convex Lens

To understand the topic well we will first break down the name of the topic, ‘Plano Convex lens’ into three separate words and look at them individually.

Lateral Magnification

In very simple terms, the same object can be viewed in enlarged versions of itself, which we call magnification. To rephrase, magnification is the ability to enlarge the image of an object without physically altering its dimensions and structure. This process is mainly done to get an even more detailed view of the object by scaling up the image. A lot of daily life examples for this can be the use of magnifying glasses, projectors, and microscopes in laboratories. This plays a vital role in the fields of research and development and to some extent even our daily lives; our daily activity of magnifying images and texts on our mobile screen for a better look is nothing other than magnification.

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A compound microscope has two convex lenses, separated by 10.0 cm as shown in the
diagram below. The objective lens has a focal length of 1.5 cm, and the eyepiece has a
focal length of 6.0 cm. The object under study is placed 2.0 cm from the objective lens.
10.0cm
2.0 cm
object
eye
Eyepiece
Objective lens
Using the lens formulae, calculate the:
a. distance from the objective lens to the image it produces.
b. distance from the eyepiece to the image it produces.
c. microscope's magnifying power.
Ps
W
earch

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