You are attempting to form a real image with a diverging lens. Where should you put...

A diverging lens with a focal length of -13 cmcm is placed 11 cmcm to the...

A diverging lens with a focal length of -13 cmcm is placed 11 cmcm to the right of a converging lens with a focal length of 22 cmcm . An object is placed 36 cmcm to the left of the converging lens. a) Where will the final image be located? b)Where will the image be if the diverging lens is 55 cmcm from the converging lens?Find the image location relative to the diverging lens.

Since a divergent lens cannot form a real image, how did you measure the focal length...

Since a divergent lens cannot form a real image, how did you measure the focal length of the diverging lens? Explain the process in detail and in your own words.

Two lenses are .78m apart and used to form an image. Lens 1 is converging and...

Two lenses are .78m apart and used to form an image. Lens 1 is converging and has a focal lens of -.42m. lens 2 is diverging and has a focal point og -0.35m. the object is 2.40m to the left of lens 1. what is the distance to the final image?

Because a concave lens cannot form a real image of a real object, it is difficult...

Because a concave lens cannot form a real image of a real object, it is difficult to measure its focal length precisely. One method uses a second, convex, lens to produce a virtual object for the concave lens. Under the proper conditions, the concave lens will form a real image of the virtual object! A student conducting a laboratory project on concave lenses makes the following observations: When a lamp is placed 42.7 cm to the left of a particular...

A thin convex lens is used to form a real image of an object placed between...

A thin convex lens is used to form a real image of an object placed between the focal point and the lens. The object is moved closer to the lens. The new image: Is closer to the lens and larger. Is farther away from the lens and smaller. Is closer to the lens and smaller. Is farther away from the lens and lager. More information is needed to work out the answer.

The lateral magnification of an object by a lens is negative. Which is true? The image...

The lateral magnification of an object by a lens is negative. Which is true? The image must be a virtual image. The image could be either a real or virtual image. The image must be a real image. The lateral magnification of an object by a lens is positive. Which is true? The image could be either a real or virtual image. The image must be a virtual image. The image must be a real image. Which is true about...

A diverging lens with a focal length of -19.7 cm and a converging lens with a...

A diverging lens with a focal length of -19.7 cm and a converging lens with a focal length of 11.0 cm have a common central axis. Their separation is 39.5 cm. An object of height 1.1 cm is 26.4 cm in front of the diverging lens, on the common central axis. Find the location of the final image produced by the combination of the two lenses. Where is the image located as measured from the converging lens? What is the...

A diverging lens with a focal length of -13 cm is placed 12 cm to the...

A diverging lens with a focal length of -13 cm is placed 12 cm to the right of a converging lens with a focal length of 22 cm . An object is placed 34 cm to the left of the converging lens. Where will the final image be located? Express your answer using two significant figures. d =    cm to the left of the diverging lens Where will the image be if the diverging lens is 58 cm from...

A diverging lens has focal length of -20 cm. How large is the image if the...

A diverging lens has focal length of -20 cm. How large is the image if the object is 5cm tall? A diverging lens has a focal length of -20 cm. How large is the image if the object is 5 cm tall?this is the only given that was given

An object is placed to the left of a lens, and a real image is formed...

An object is placed to the left of a lens, and a real image is formed to the right of the lens. The image is inverted relative to the object and is one-half the size of the object. The distance between the object and the image is 75.3 cm. how far from the lens is the object? what is the focal length of the lens?