9.Real Image: Real Image is the image that can be projected on screen.
Virtual Image: Virtual Image is the image that can not be projected on screen.
Based on the image, is the image real/virtual, inverted/upright,
and what is the magnification?
Object F F Plane mirror Convex lens
Does a positive s’ value correspond to a real or a virtual image? Does a positive s’ value correspond to an image to the left or to the right of the lens? • Does a negative s’ value correspond to a real or a virtual image? Does a negative s’ value correspond to an image to the left or to the right of the lens? • Which kind of image (real or virtual) appears to the right of the lens?...
Under what conditiorn will a convex lens produce a virtual image from a real object?
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
1. How is a real image different from a virtual image? Why might it be difficult to measure the location of the virtual image? (2 points) 2. The figure below shows an object to the left of a converging lens and the resulting image to the right. On the diagram draw the three principal rays. (3 points) object near f far image The figure Above shows an object to the left of a converging lens and the resulting image to...
I only need A,B,C
What kind of image will be produced (real or virtual? Upright or inverted?) for a converging lens under the following four conditions? Use the thin lens equation and then check using a ray tracing picture. s > 2f s = 2f s = f 0 < s <f
When a diverging lens is held 13.0 cm above a line of print, as in Figure 26.29, the image is 5.0 cm beneath the lens. (a) Is the image real or virtual? (b) What is the focal length of the lens?
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.
please answer the full question and explain.
Real object for lens A Real image for lens A, virtual object for lens C Is shift in point of convergence Lens A s' Lens C Real image for lens C
Focus Object Region 1 Region 2 Reg on 3 The image is a virtual image on the same side of he object The image is a bigger virtual image with same orientation as the object The image is a bigger virtual image with inverted orlentation The image is a real limage with same orlentation and is bigger than the object The image is a larger image with inverted orientation. Subma Arswer Tries 0/1 Post Send Feedback 2 LI 7 Ait
Part A In the figure (Figure 1), what is the orientation of the final image? virtual, upright virtual, inverted real, upright real, inverted O O Figure < 1 of 1 Submit Request Answer Part B fi = 10 cm f2 = -30 cm What is the position of the final image? 1.0 cm O to the right of the lens O to the left of the lens 5.0 cm 5.0 cm lens mirror Submit Request Answer Part C What is...