explain why, for a given light source-to-screen distance, there are two lens positions where a clear...

Distance between object and screen is fixed and equal 120 cm. The converging lens of focal...

Distance between object and screen is fixed and equal 120 cm. The converging lens of focal lengths 35 cm is positioned between object and screen in attempts to get clear image on the screen. Based on the data given we may conclude that: There are two positions of lens which will provide sharp image on the screen. There is one position of the lens which will provide sharp image on the screen. No position of the lens will provide sharp...

why are there scenarios where there is no position forms a clear image ( lens functions)

why are there scenarios where there is no position forms a clear image ( lens functions)

Describe a scenerio, for a given screen to object, where only one lens position shows a...

Describe a scenerio, for a given screen to object, where only one lens position shows a clear image

A light bulb, a lens, and a screen are mounted on a metre stick, such that...

A light bulb, a lens, and a screen are mounted on a metre stick, such that the bulb is at the 10 cm mark and an image forms on the screen when it is at the 90 cm mark. The image is three times the size of the bulb and is inverted. Using the ray tracing technique, find a) the location of the lens. b) the focal length of the lens. a) lens is at the 30 cm mark b)...

For a particular converging lens, an object a certain distance to the left of the lens...

For a particular converging lens, an object a certain distance to the left of the lens produces a clear image on a a screen a distance 30.2 cm to the right of the lens. When a second lens is placed 15.4 cm to the right of the first lens, the screen has to be moved 18.7 cm to the right of its previous location to produce a clear image. Determine the focal length of the second lens.

An object is placed 53.5 cm from a screen. (a) Where should a converging lens of...

An object is placed 53.5 cm from a screen. (a) Where should a converging lens of focal length 9.0 cm be placed to form an image on the screen? shorter distance_________cm from the screen farther distance___________cm from the screen (b) Find the magnification of the lens. magnification if placed at the shorter distance ________ magnification if placed at the farther distance__________

A giants image is projected onto a screen through a lens of 2cm focal distance. The...

A giants image is projected onto a screen through a lens of 2cm focal distance. The giant is 25m tall and is standing 50cm from the lens. Find the size of the giants image as seen by a princess traveling in the direction parallel to the screen at 0.8c. ​

5.) Determine the focal length of a diverging lens using a virtual object given: Position of...

5.) Determine the focal length of a diverging lens using a virtual object given: Position of object/light source on optical bench = 10 cm Position of 10 cm convex lens on optical bench = 40 cm Position of image on optical bench = 57.2 cm Position of -15 cm concave lens on optical bench = 45 cm Position of image on screen = 92.2 cm a) What is the object distance do2 for the second lens? b) Is the object...

A viewing screen is separated from a double-slit source by 1.7m. The distance between the two...

A viewing screen is separated from a double-slit source by 1.7m. The distance between the two slits is 0.035mm. The second order bright fringe (m=2) is 5.1cm from the center line. (a) Determine the wavelength of the light. (b) Calculate the distance between adjacent bright fringes.

A converging lens of focal length f is placed between an object and a screen located...

A converging lens of focal length f is placed between an object and a screen located a distance d to the right of the object. Given that 4f < d, find the largest of two possible locations in cm for the lens as measured from the object so that a sharp image is formed on the screen. (Input your answer in 2 significant figures without unit)