What kind of image does a magnifying glass create (real/virtual/inverted/laterally inverted/upright)? Ray diagram of a magnifying...

Consider how a converging lens produces a virtual image opposed to a real image. a. Would...

Consider how a converging lens produces a virtual image opposed to a real image. a. Would the virtual image be upright or inverted? Is it larger or smaller than the object itself? b. Can you observe this image on a screen placed in front of the lens? Explain c. Suppose you move the object closer to the lens. Is the image upright or inverted? Is it larger or smaller than the object itself? d. If the object is closer to...

True or False a) A converging lens can produce a virtual, upright, enlarged image. b) A...

True or False a) A converging lens can produce a virtual, upright, enlarged image. b) A diverging lens always produces a virtual, upright, reduced image. c) For a converging lens an object has to be placed between the focal point and the lens in order to form a virtual image. d) A converging lens can never produce a virtual, upright, reduced image. A converging lens cannot produce a real, inverted reduced image. e) A diverging lens can produce a real,...

A) How far behind a 15.4 cm magnifying glass would you put a fingerprint to get...

A) How far behind a 15.4 cm magnifying glass would you put a fingerprint to get an upright image 2.029 times as large? Answer in cm. Would this be a real or virtual image. B) Lenses of focal lengths +58.1 mm & +21 mm are held 92.5 mm apart to make a makeshift microscope. A leaf of length 6.77 cm is placed 208 mm from the larger focal length lens. How large will the virtual image appear when viewed through...

A real, upright object of 3.50 cm in height is placed to the left of a...

A real, upright object of 3.50 cm in height is placed to the left of a converging lens with focal length 12.0 cm. A diverging lens with focal length 6.00 cm is located 20.0 cm to the right of the converging lens. Read carefully: The final image formed by the two lens system is 5.00 cm to the right of the converging lens. Draw a simple yet clear diagram of the setup, labeling lenses, object distances, and images distances as...

. Diverging lens 1 (focal length f1 = −20.0 cm) is placed a distance of d...

. Diverging lens 1 (focal length f1 = −20.0 cm) is placed a distance of d = 45.0 cm to the left of diverging lens 2 (focal length f2 = −15.0 cm). An object is placed p1 = 25.0 cm to the left of diverging lens 1 and has a height of h = 16.0 cm. (a) Where is the image formed by diverging lens 1 (i.e. what is q1)? What is this image’s height and is it upright or...

DataTable 1 Focal length, f 1.76 2f 3.52 Height of object, ho 4.0 Data Table 2...

DataTable 1 Focal length, f 1.76 2f 3.52 Height of object, ho 4.0 Data Table 2 General Description Object Dist. (cm) Image Dist. (cm) Object Size (cm) Image Size (cm) Other Observations (real, virtual or no image?) (Upright or inverted image?) Object about 5 f 10 74.04 4 -29.62 Real, inverted Object about 2.5f 10 7.87 4 -3.15 Real, inverted Object 2f 10 5.44 4 -2.18 Real, inverted More than f and less than 2f 10 4.29 4 -1.71 Real,...

A ray of sunlight is passing from diamond into crown glass; the angle of incidence is...

A ray of sunlight is passing from diamond into crown glass; the angle of incidence is 28.00°. The indices of refraction for the blue and red components of the ray are: blue (ndiamond = 2.444, ncrown glass = 1.531), and red (ndiamond = 2.410, ncrown glass = 1.520). Determine the angle between the refracted blue and red rays in the crown glass. ° An object is placed to the left of a lens, and a real image is formed to...

A dermatologist examines a mole on a patient’s skin by using a handheld magnifying glass. The...

A dermatologist examines a mole on a patient’s skin by using a handheld magnifying glass. The focal length of this tool is 15 cm and she hold it at 13.5 cm from the mole. a) Calculate the image distance di. [2] b) If the mole has a diameter of 5 mm, calculate the size of the image. [2] c) What are the properties of the image? Sketch a ray diagram to show the image formation. [3] d) She is now...

A single by bi-convex lens made of glass (index of refraction n=1.50 ) has surfaces with...

A single by bi-convex lens made of glass (index of refraction n=1.50 ) has surfaces with the radii of curvature R1= 26.0 cm and R2= -26 cm. (a) What is this focal length of the lens in the air? (b) if an object is placed at p=32 cm from the lens, where is the image? (Use plus sign for a real image, minus signs for the virtual.) (c) if the subject has a height of h+1.50 cm, how large is...

1) Two convex lenses, both with focal length 1.5 m, are placed such that the light...

1) Two convex lenses, both with focal length 1.5 m, are placed such that the light from a 4 cm tall object passes through each. The object is placed 4.5 m from the first lens, and the lenses are 3 m apart. Where will the image from the first lens be? Will it be real or virtual? Will it be upright or inverted? Where will the final image be (using both lenses)? Will it be real or virtual? Upright or...