Question

In: Physics

Two concave lenses, each with f = -16 cm, are separated by 6.5 cm. An object...

Two concave lenses, each with f = -16 cm, are separated by 6.5 cm. An object is placed 30 cm in front of one of the lenses. Part A) Find the location of the final image produced by this lens combination. cm in front of the lens closest to the object Part B) Find the magnification of the final image produced by this lens combination. Express your answer using two significant figures.

Solutions

Expert Solution


Related Solutions

Two identical diverging lenses are separated by 17 cm. The focal length of each lens is...
Two identical diverging lenses are separated by 17 cm. The focal length of each lens is -8.0 cm. An object is located 4.0 cm to the left of the lens that is on the left. Determine the final image distance relative to the lens on the right.
Two converging lenses are separated by 29.00 cm. The focal length of each lens is 17.00...
Two converging lenses are separated by 29.00 cm. The focal length of each lens is 17.00 cm. An object is placed 32.00 cm to the left of the lens that is on the left. Determine the final image distance relative to the lens on the right.
Two converging thin lenses (f1 = 15 cm and f2 = 20 cm) are separated by...
Two converging thin lenses (f1 = 15 cm and f2 = 20 cm) are separated by 25 cm. A candle is placed in 40 cm in front of the first lens. a) Where will the image of the candle be created by the two-lens system? b) Describe the properties of the image. c) Describe how the image changes as the lenses are moves closer together. d) The lenses are now moved right next to each other. What is the equivalent...
Two converging lenses (f1 = 9.40 cm and f2 = 5.50 cm) are separated by 17.9...
Two converging lenses (f1 = 9.40 cm and f2 = 5.50 cm) are separated by 17.9 cm. The lens on the left has the longer focal length. An object stands 12.4 cm to the left of the left-hand lens in the combination. Locate the final image relative to the lens on the right. Obtain the overall magnification. Is the final image real or virtual? With respect to the original object, is the final image upright or inverted and is it...
A 14 mm high object is 11 cm from a concave mirror with focal length 16...
A 14 mm high object is 11 cm from a concave mirror with focal length 16 cm. Calculate (a) the location of the image, (b) the height of the image, and (c) the type of image.
Two lenses are separated by L = 50.0 cm. The first lens (light coming from the...
Two lenses are separated by L = 50.0 cm. The first lens (light coming from the left.) has a focal length f1 = 24.0 cm and the second lens has a focal length f2 = 18.0 cm. An object is located 40.0 cm (s1) to the left of the first lens. Calculate the position of the two images formed by the lens system. State whether each image is real or virtual. Repeat this problem with L = 10.0 cm.
An object 5.8 cm in height is placed 7.3 cm in front of a concave spherical...
An object 5.8 cm in height is placed 7.3 cm in front of a concave spherical mirror with a focal length of 10.8 cm. What is the position of its image in relation to the mirror, and what are the characteristics of the image?
Derive Lens equation of two convex lenses (L1 and L2) separated by 5 cm in Air....
Derive Lens equation of two convex lenses (L1 and L2) separated by 5 cm in Air. Write down the System Matrix equation and define each matrix elements.
A 2.90-cm-high object is situated 11.6 cm in front of a concave mirror that has a...
A 2.90-cm-high object is situated 11.6 cm in front of a concave mirror that has a radius of curvature of 11.2 cm. Calculate (a) the location and (b) the height of the image.
1. Answer the following questions on mirrors/lenses a. A concave mirror (f1 = 14.8 cm) and...
1. Answer the following questions on mirrors/lenses a. A concave mirror (f1 = 14.8 cm) and a convex mirror (f2 = −5.90 cm) are facing each other and are separated by a distance of 34.0 cm. An object is placed between the mirrors and is 17.0 cm from each mirror. Consider the light from the object that reflects first from the concave mirror and then from the convex mirror. What is the distance of the image (di2) produced by the...
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT