a bug, a tiny bio-luminescent light emitting bug is held in place in front of an ideal lens of focal lenght of f=87cm. the distance between the bug and the vertex of the lens is s=43cm. find the magnification of the image seen on the other side of the lens
express answer to 3 decimal places
a bug, a tiny bio-luminescent light emitting bug is held in place in front of an...
an alien firefly, a tiny bio-luminescent (light emitting)critter is held in place in front of an ideal lens of focal length of f=84cm. the distance between the fireflt and the vertex of the lens is s=31cm . find the magnification of the image seen by an observed on the other side of the lens express your answer to 3 decimal places and show work
Urgent Please :) Question 7 10 pts (10 points: for full credit all work must be turned in) An allen firefly, a tiny blo-luminescent (light emitting) critter is held in place in front of an ideal lens of focal length of f = 70 cm. The distance between the firefly and the vertex of the lens is s = 52 cm. Find the magnification of the image seen by an observed on the other side of the lens. Express you...
A firefly is held in place infront of an ideal lens of focal length of f=78 cm. The distance between the firefly and the vertex of the lens is s=16. Find the magnification of the image seen by an observed on the other side of the lens. Express your answer to 3 decimal places.
2. If we place an object in front of a concave mirror, the image formed will always be real. false 3. A beam of light travels from a transparent material to air. The beam is refracted at an angle of 25° to the normal. The beam travels at a speed of 2.20 x 108 m/s in the material. 4. A beam of light travels from a transparent material to air. The beam is refracted at an angle of 25° to...
need help please a microscope with a converging lens the eye part has a focal lenght f2=1.42cm . at the other end is another converging lens the objective that has a focal lenght of f1=14.65cm. when you place a bug you want to examine at a distance of s1=3.20cm from the objective. what is the overall lenght of the microscope to view the bug with a relaxed a eye. hint: a normal eye will expect to find an image at...
An object is placed 7.5 cm in front of a converging lens with a focal length f1 = 2.5 cm. On the other side of the lens is a concave mirror of focal length f2 = 1.5 cm. The mirror is 5.0 cm from the lens. Light from the object passes rightward through the lens, reflects from the mirror, passes leftward through the lens, and forms a final image of the object. ksid tet to What is the distance between...
You place a 22-cm focal length convex lens at a distance of 50 cm in front of a concave lens with a focal length of -40 cm. Then you place a small lightbulb (2 cm tall) 27 cm in front of the convex lens. Determine the distance from the second lens to the final image Express your answer with the appropriate units s'= it is NOT 20.44 or -20.44 cm
a) Light reflects from the front and back surfaces of a bubble. Assume the bubble is made primarily of water (index of refraction = 1.33). If the bubble has a thickness of 546 nm, what wavelength of light will undergo destructive interference (the bubble will appear dark)? b) An object is 20 cm in front of a diverging lens with a focal length of -6 cm. Calculate the image distance and the magnification. Is the image real or virtual? Upright...
1. Light reflects from the front and back surfaces of a bubble. Assume the bubble is made primarily of water (index of refraction = 1.33). If the bubble has a thickness of 546 nm, what wavelength of light will undergo destructive interference (the bubble will appear dark)? a) 581 nm b) 726 nm c) 410 nm d) 2905 nm e) 968 nm f) 546 nm 2. You shine white light on a piece of paper covered by ink that absorbs...
a microscope with converging lens (eyepiece) has a focal lenght of f1= 1.42cm mounted on one end of a tube of adjustable lenght. the other end is another converging lens (the objective)that has a focal lenght of f2=14.65 cm. when you place the flea at a distance of s1=3.20cm from the objective, find the overall lenght (cm) of the microscope needed to view the sample (a flea) in focus with a relaxed eye. hint(a normal relaxed eye will expect to...