In E111, the object is placed in front of a concave mirror, at an object distance 3x the magnitude of the focal length. Which of the following is incorrect? Consider the magnitudes only. O The image distance is 1.5 times the focal length. O The image height is 0.25 times the object height. O The image distance is 0.5 times the object distance. O The image is inverted.
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Q: how do you do question 9? this is a non graded practice worksheet
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- Problem 5: A student notices that the image produced from a large concave mirror of a distant skyscraper (h = 129 m) is inverted and the magnitude of the height is h; = 1.46 m tall. The image is located d = 186 cm in front of the mirror. Part (a) Write an expression for the distance between the mirror and the skyscraper, d. d, = 8 9 HOME a a b d. 4 5 6 h hị *1 2 3 k m END S t vol BACKSPACE DEL CLEAR Submit Feedback I give up! Hint Part (b) Numerically, what is the distance in meters? Part (c) Numerically, what is the focal length of the mirror, f, in cm?The image is formed on the retina even when the distance of the object from the eye increases The lens of the eye becomes thinner and the focal length increases. O The lens of the eye becomes thicker and the focal length decreases. The lens of the eye becomes thinner, and the focal length decreases. с The lens of the eye is not affected and remains the same thickness. OMore mirrors. Object O stands on the central axis of a spherical or plane mirror. For this situation (see the table below, all distances are in centimeters), find (a) the type of mirror (concave or convex), (b) the focal distance f, (c) the object distance, (d) the magnification (including sign), whether (e) the image is real or virtual, (f) inverted (I) or noninverted (NI) from 0, and (g) on the same side of the mirror as object O or on the opposite side. (a) (b) (c) (d) (e) (f) (g) Туре f r pi R/V I/NI Side -46 -10 (a) convex (b) Number -23 Units cm (c) Number Units (d) Number i Units (e) (f) (g) > >
- Problem 4. Ray tracing with a mirror. We will use three principle rays. Ray 1: drawn from the tip of the object, parallel to the principle axis of the mirror and is reflected back through the focal point F V Ray 2: drawn from the tip of the object through the focal point and reflected parallel to the principle axis.. Missin -L Ray 3: Drawn from the tip of the object through the center of curvature C and reflected back on itself. ( ^n The object whose reflection we are calculating is represented as an arrow with the tip of the object being the tip of the arrow. Principle axis C invered < a. Draw the three rays to show where the image is. Draw the image as an arrow. b. Is the image upright or inverted?? c. Is the image real or virtual real d. Is the image the same size, bigger than or smaller than the actual object? Bigge 1 FAn object is placed 30 cm in front of a converging mirror having a focal length of magnitude 20 cm. What is the image distance, in cm? Your answer needs to have 2 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement. An object is placed 30 cm in front of a diverging mirror having a focal length of magnitude 20 cm. What is the image distance, in cm? Your answer needs to have 2 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement. When an object is 20 cm in front of a spherical mirror, the image is 12 cm behind the mirror. What is the focal length of the mirror, in cm? Your answer needs to have 2 significant figures, including the negative sign in your answer if…A convex mirror (diverging) has a focal length of magnitude f. An object is placed in front of this 2 mirror at a point f from the face of the mirror. The image will appear at a distance of 2/5 f from the mirror, virtual, upright and reduced. O2 f from the mirror, virtual, inverted, and diminished O 1/2 f from the mirror, virtual, upright, inverted and enlarged. O 5/2 f from the mirror, real, inverted, and enlarged. 3f from the mirror, real, upright, and enlarged
- A tall tree is growing across a river from you. You would like to know the distance between yourself and the tree, as well as its height, but are unable to make the measurements directly. However, by using a mirror to form an image of the tree and then measuring the image distance and the image height, you can calculate the distance to the tree as well as its height. Suppose that this mirror produces an image of the sun, and the image is located 0.8278 m from the mirror. The same mirror is then used to produce an image of the tree. The image of the tree is 0.9219 m from the mirror. (a) How far away is the tree? (b) The image height of the tree has a magnitude of 0.13 m. How tall is the tree? (a) do = (b) ho= i iAn object is placed a distance do = 18.0 cm in front of a convex (negative) mirror with a focal length f= -9.0 cm. What is the image distance for the image formed by this mirror? d₁ = What is the magnification for this image? m= cm Is the image upright or inverted? O no image is formed O inverted O upright Is the image real or virtual? O real O virtual O no image is formed docem 1 1 of 1 Use this information for parts G, H and I. The sideview mirror on your car is convex. When looking in this mirror, you see a car that has an actual distance of 100 m behind you (the distance from the car to the mirror) and the image appears to be only -1.961 m from the mirror. Part G What is the focal length of this mirror? Answer in units of m to four significant figures. Do not Include the units symbol. Submit Request Answer Part H If the image of the car appears to be 2.941×10¬2 m tall, what is the height of the actual car? Answer in units of m to four significant figures. Do not include the units symbol. ? Submit Request Answer Part I
- A converging mirror has a focal length of x. An object, represented by the arrow, is placed at point B, as seen in the figure here. A B C D E x The image location is best described as O (A) left of point A. O (B) between points A and B. O (C) between points D and E. O (D) no image is formed the mirror causes parallel rays. xq40 An object is 37.5 cm from a converging mirror (focal length = 13.0 cm). Determine the image magnification. Enter the numerical part of your answer to two significant figures. Hint: Remember that the sign of the magnification is significant.