An object is placed 2.00 m from a screen. A positive lens stands 50 cm from...

An object is placed 2.00 m from a screen. A positive lens stands 50 cm from the screen and then gives a sharp image of the object. There is another lens mode that gives a sharp image. How far from the screen is it?

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__________

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...

An object is placed 230 cm to the left of a positive lens of focal length...

An object is placed 230 cm to the left of a positive lens of focal length 50.0 cm. A "mystery" lens is placed 140 cm to the left of original lens (so that it is located between the original lens and the object). The final image of this two-lens system appears inverted on a screen located 300.0 cm behind (to the right) of the original lens. Calculate the focal length of the "mystery" lens.

A lens with a focal length of 20 cm is placed 50 cm in front of...

A lens with a focal length of 20 cm is placed 50 cm in front of a lens with a focal length of 5.0 cm. Part A. How far from the second lens is the final image of an object infinitely far from the first lens? Part B. Is the image in part a in front of or behind the second lens?

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)

When an object is placed at the proper distance to the left of a converging lens,...

When an object is placed at the proper distance to the left of a converging lens, the image is focused on a screen 30cm to the right of the lens. A diverging lens with focal length f=-24cm is now placed 15cm to the right of the converging lens. How far and in which direction do we need to move the screen to get a sharp image? How much larger is the new image?

A thin converging lens is to focus the image of an object onto a screen so...

A thin converging lens is to focus the image of an object onto a screen so that the image is life-sized. The lens surfaces have equal radii of curvature of 112 cm, and the refractive index of the lens material is 1.500. (a) How far from the lens should the screen be placed? (b) How far is the screen from the object? i'm confused in this problem, is the magnification supposed to be +1 or -1? for part b) you...

A converging lens has focal length f = 50 [cm] and an object is placed in...

A converging lens has focal length f = 50 [cm] and an object is placed in the back of the lens 100 [cm] away. Calculate the position of the image q and the magnification M. Also state the meaning of q and M being positive or negative numbers. Before you calculate consider whether the numbers you plug in should be positive or negative, see sign-convention table given in lecture. Note: the object is in the back of the lens, that...

An object 50-cm high is placed 1.0 m in front of a converging lens whose focal...

An object 50-cm high is placed 1.0 m in front of a converging lens whose focal length is 1.5 m. Determine the image height (in cm), and determine the properties of the image.

An object 2.00 cm high is placed 31.1 cm to the left of a converging lens...

An object 2.00 cm high is placed 31.1 cm to the left of a converging lens having a focal length of 26.1 cm. A diverging lens having a focal length of −20.0 cm is placed 110 cm to the right of the converging lens. (Use the correct sign conventions for the following answers.) (a) Determine the final position and magnification of the final image. (Give the final position as the image distance from the second lens.) Find final position in...