A camper is trying to start a fire by focusing sunlight onto a piece of paper. The diameter of the sun is 1.39 × 10⁹ m, and its mean distance from the earth is 1.50 x 101¹1 m. The camper is using a converging lens whose focal length is 10.1 cm. (a) What is the area of the sun's image on the paper? (b) If 0.613 W of sunlight pass through the lens, what is the intensity of the sunlight at the paper? (a) Number (b) Number i Units Units

A camper is trying to start a fire by focusing sunlight onto a piece of paper. The diameter of the sun is 1.39 × 10⁹ m, and its mean distance from the earth is 1.50 x 101¹1 m. The camper is using a converging lens whose focal length is 10.1 cm. (a) What is the area of the sun's image on the paper? (b) If 0.613 W of sunlight pass through the lens, what is the intensity of the sunlight at the paper? (a) Number (b) Number i Units Units

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

A student is reading a lecture written on a blackboard. The lenses in her eyes have a refractive power of 54.38 diopters, and the lens-to-retina distance is 1.848 cm. (a) How far is the blackboard from her eyes? (b) If the writing on the blackboard is 4.67 cm high, what is the height of the image on her retina?
A lighted candle is placed 36 cm in front of a converging lens of focal length f1 = 13 cm, which in turn is 56 cm in front of another converging lens of focal length f2 = 16 cm (a) Calculate the position of the final image (b) relative size of the final image.
A biconcave lens has radii of curvature equal to R₁ = 31.0 cm and R₂ = 43.7 cm. A very distant object on the R₁ side of the lens forms an image. The lens medium has index of refraction 1.53 for violet light and 1.51 for red light. (a) Where is the image formed by violet light? (Enter your answer in cm and indicate the position of the image relative to the lens with the sign of your answer. Give your answer to at least two decimal places.) cm (b) Where is the image formed by red light? (Enter your answer in cm and indicate the position of the image relative to the lens with the sign of your answer. Give your answer to at least two decimal places.) cm
A fish is 60 cm beneath the surface of a pon. An insect is flying directly overhead. If the insect is exactly 20cm above the surface of water, how far above the surface does the insect appear to the fish ? ( given: refractive index of water = 1.33 )
A laser beam of diameter d₁-1.1 mm is directed along the optical axis of a thin lens of focal length +4.7 cm (see figure below). (a) How far from the lens will the beam be focused? (b) A second positive lens is placed to the right of the first. Light emerges from the second lens in a parallel beam of diameter dy 3.6 mm. Thus the combination of lenses acts as a beam expander. Find the focal length of the second lens. Find the distance between the lenses.
A camper is trying to start a fire by focusing sunlight onto a piece of paper. The diameter of the sun is 1.39 × 10⁹ m, and its mean distance from the earth is 1.50 × 1011 m. The camper is using a converging lens whose focal length is 10.3 cm. (a) What is the area of the sun's image on the paper? (b) If 0.752 W of sunlight pass through the lens, what is the intensity of the sunlight at the paper? (a) Number i (b) Number i Units Units
A student stands dsub0=2.4 m in front of a floor-to-ceiling mirror. Her eyes are hsube=1.53 m above the floor and she holds a flashlight at a distance hsubf=.55 m above the floor. Calculate the angle in degrees that the flashlight makes with respect to the floor if the light is reflected into her eyes.
A laser beam of diameter d1 = 1.3 mm is directed along the optical axis of a thin lens of focal length +5.1 cm (see figure below). (a) How far from the lens will the beam be focused?(b) A second positive lens is placed to the right of the first. Light emerges from the second lens in a parallel beam of diameter d2 = 3.9 mm. Thus the combination of lenses acts as a beam expander. Find the focal length of the second lens.Find the distance between the lenses.
A student is reading a lecture written on a blackboard. The lenses in her eyes have a refractive power of 65.20 diopters, and the lens-to-retina distance is 1.543 cm. (a) How far (in meters) is the blackboard from her eyes? m(b) If the writing on the blackboard is 4.70 cm high, what is the size of the image on her retina (including the proper algebraic sign)?