lens A had a real object whereas lens C had a virtual object. what do you...
Part 3 : Diverging Lens Table 3: Diverging Lens Image distance for lens A= 15 cm Object distance for lens C= -5 cm Image distance for lens C= 8 cm Focal length for lens C = ……cm (Use lens formula) Analysis Questions: 6. Lens A had a real object whereas lens C had a virtual object. What do you notice is the difference between the incident rays approaching each lens? 7. What do you notice is the difference between...
A diverging lens is used to get a virtual and magnified image of a real object. Where is the object possibly located? (A) Between the lens and its virtual focal point. (B) At the lens's virtual focal point (C) Between the lens's virtual focal point and its radius of curvature (2f). (D) At the radius of curvature (2f) (E) I is not possible to obtain the described image with a diverging lens
a) Using a ruler, draw an object placed between the focal point
and the convex lens, and using principal rays, determine where the
image is formed.
b) Is the image larger or smaller than the object?
c) Is the image upright or inverted?
d) Is the image real or virtual? Explain.
e) What could be a practical application of this?
Question 2: Now examine the case of an object placed between the focal point and the lens:
Match the key terms with the definitions Diverging lens Focal length Angular magnification Real image Virtual image Where light rays from a point on an Draq arsiver nere Distance along the optical axis from the focal point to the lens or mirrorDrag answer here which is focusing the light inear magnification Ratio of image height to object height Drag answer here Point where light rays oppear to come Drag arsiwer ere Lens where rays of light that enter parallel will...
Under what conditiorn will a convex lens produce a virtual image from a real object?
Please can you explain it in steps and use diagram
accordingly
2. a) What is the difference between a real image and a virtual image? 110 (Note: a diagram is needed for this question.) b) Where must an object be placed in front of a plus lens in air of focal length 20cm to give an image: i) 25cm behind the lens ii) 25cm in front of the lens? State in each case whether the image is real or virtual....
**Please Do Not Forget The Visual Representation. Thank
You!!**
Problem Statement A 4.0-cm tall object is placed 50.0 cm from a diverging lens having a focal length of magnitude 25.0 cm. Draw the ray diagram for this situation. What is the location and height of the image? Is the image real or virtual? Visual Representation Draw an optical axis with the lens centered on the axis. Represent the object at the correct distance from the lens • Draw the three...
A 5 cm tall object stands in front of a converging lens with focal length f = 35 cm. The distance between the object and the lens is 10 cm. (a) Give the power of the lens. (b) Calculate the position and height of the image formed. Is the image real or virtual? (c) In the space below clearly produce the ray diagram (at least two of the three rays that form the image). A farsighted person uses spectacles formed...
please help in all sections!
F Object When a real object is placed just inside the focal point F of a diverging lens, the image is A) virtual, erect, and diminished. B) real, inverted, and enlarged. C) real, inverted, and diminished. D) virtual, erect, and enlarged. E) virtual, inverted, and diminished. 3. A lens has a positive focal length f. The only way to get a magnification of -1 is to A) place a real object at the focal point....
please help
An object is put at the front focal point of a convex lens. Behind the convex lens, a plane mirror is placed perpendicularly to the principal axis of the convex lens as shown in the following picture. Find the position of the image of the object using ray diagrams. (Assume the lens and the mirror are both very large in the transverse direction.) Please also describe the details of the image (real/virtual, inverted/upright, and the magnification). Does the...