Please draw lens diagrams for all 6 types of thin lenses
A. converging: meniscus, planar convex, double convex
B. diverging: meniscus, planar concave, double concave
and show in each case, using appropriate sign conventions for the
radii of curvature, that the focal length is the same regardless of
whether light is coming towards the lens from the left or
right.
This exercise involves drawing 12 diagrams, and annotating and
doing a bit of algebra for each lens/light direction combination.
Please, makeup radii of curvature that are appropriate to the lens.
I leave that up to you. My suggestion is to keep your radii between
6 and 10 cm, just for computational simplicity. Also, to help you
keep track of things, don't make the radii for double convex or
double concave the same.
Please draw lens diagrams for all 6 types of thin lenses A. converging: meniscus, planar convex,...
The lens shown above is a O bi-convex diverging lens. bi-convex converging lens. bi-concave diverging lens. Obi-concave converging lens. Under the sign convention rules for lenses, a negative focal length means that the lens is planar. converging. bifocal. diverging. An object is placed 30 cm from a converging lens with a focal length of 20 cm. The image will appear right side up 12 cm from the lens on the same side of the lens. right side up 60 cm...
options are:
Plane Mirror
Concave Mirror
Convex Mirror
Converging Lens
Diverging Lens
In the 7 diagrams below, the solid arrow represents the object and the dashed arrow the image. The rectangle shows the position of an SINGLE OPTICAL ELEMENT. Match each diagram with the appropriate optical element. C 11 Submit Answer Tries 0/20
Mirrors and Lenses O O O O Concave mirror Convex mirror Plane mirror Converging lens Diverging lens Focal length (cm): Object distance, x (cm): Object height (cm): Image distance, x' (cm): Image height (cm): 40.0 200.0 50.0 50.0 -12.5 Concept Questions Notes Audio Intro Oo © Question 6 Concept Simulation 25.2 illustrates the concepts pertinent to this problem. A 2.10-cm-high object is situated 13.4 cm in front of a concave mirror that has a radius of curvature of 12.1 cm....
Review Constants In this example, we will apply the thin-lens equation to a lens that has two concave surfaces. The two surfaces of the lens shown in (Figure 1) have radii of curvature with absolute values of 20 cm and 5.0 cm. The index of refraction is 1.52. What is the focal length f of the lens? SOLUTION SET UP AND SOLVE The center of curvature of the first surface is on the incoming side of the light, so R,...
just the conclusion and the question parts + the graph of M
versus q
thanks!
Experiment 12 Thin Lenses Purpose The purpose of this experiment is to veily the thin lens equation and to determine the focal length of an optical thin lens Apparatus The apparatus used in this experiment consists of an opical bench, a light source with built-in object, a thin lens, a screen and a smaill plastic scale. Theory A thin lens is an optical system with...
gibly drawn to scale ray diagrams showing h ation ng configuration: converging lens of 15em fixed focal length em in length. An object is placed at 0.0 em, can be detected is placed somewhere on an optical bench of 240 and a screen is placed where ever a focused image Use the illustrations on the following pages to construct one ray diagram for each of the following situations, using the basic configuration given above. Situation a) Measuring from the object...
show all working answers
*Question 218: Lens-maker's Equation A double convex lens has radii r7 = +10 cm and r2 = -10 cm. It is made from glass with an index of refraction of 1.53 for red light and 1.47 for blue light. What is the difference between the focal lengths for blue and red light? Select one: O a. 9.42 cm O b. 10.64 cm O c. 1.20 cm d. 83.3 cm O e. 0.13 cm O f. 0.012...
Could someone please help complet Table 1 and Table 2
Lab 12 Concave and Convex Lenses PHYS 1110L Conceptual Physics Lab Name: Date: Results:-- -(90 pts max) OBJECTIVES To demonstrate the formation of images from convex and concave lenses. To identify the type of image formed by convex and concave lenses. - To confirm the lens equations. PART 1 CONVEX LENS 1. Open GOOGLE CHROME or other compatible browser and DISABLE all BROWSER POP-UP BLOCKERS 2. Go to PhET Simulations...
please help with all questions pictured if possible please !
6. An object is positioned outside the focal point of a thin convex lens. A student uses the graphical method to predict the location of the image of the arrow. As shown in the diagram, she draws principal rays to the lens only. When the rays are completed, which will pass through the point Q, which is the tip of the image of the arrow? (1 point) Rays 1 and...