all parts (10%) Problem 9: Suppose a microscope's 8.7 mm focal length objective produces a magnification...
10%) Problem 9: Suppose a microscope's ó.8 mm focal length objective produces a magnification of-42 > Δ 50% Part (a) What is the object distance for this configuration in mm? Grade Summary Deductions Potential 0% 100% sin tan() | π| ( Submissions Attempts remaining: 3 (4% per attempt) detailed view 78 9 acos0 sinh0 cosh0tan0 coho cotanasin0 atan)acotan s 0 END Degrees Radians CLEAR Submit Hint I give up! ints: 4% deduction per hint. Hints remaining: 3 Feedback: 5% deduction...
(10%) Problem 9: Suppose a microscope's 8.7 mm focal length objective produces a magnification of-3.9 p, * 50% Part (a) What is the object distance for this configuration in mm? Grade Summary Deductions Potential do 4.381 4% 96% sinO tan 78 9HOME Submissions Attempts remaining: 2 cotan)asin) acosO % per attempt) detailed view atanOacotan) sinhO cosh0 anh0 cotanh0 4% 0 END Degrees O Radians 01 BACKSPACE | DELI CLEAR Submit I give up! Hints: 4% deduction per hint. Hints remaining:...
Suppose a microscope's 4.9 mm focal length objective produces a magnification of-31. Part (a) What is the object distance for this configuration in mm? Part (b) How far (in cm) from the objective should a 10.00 cm focal length eyepiece be placed to produce a further fourfold (4.00) magnification?
Suppose a microscope's 1.7 mm focal length objective produces a magnification of -2.1. a)What is the object distance for this configuration in mm? answer do=2.5 b) How far (in cm) from the objective should a 10.00 cm focal length eyepiece be placed to produce a further fourfold (4.00) magnification?
(10%) Problem 4: A doctor examines a mole with a 15-cm focal length magnifying glass held 14.5 cm from the mole Randomized Variables do= 14.5 cm 33% Part (a) What is the image distance for this configuration in meters? d- 13.29 di=-13.29 X Incorrect! 33% Part (b) What is its magnification? Grade Summary Deductions 0% 100% Submissions sinO cotan)asin) tan jt acosO 78 9 4 5 6 cosO Attempts remaining: 3 % per attempt) detailed view atanOacotan) sinhO coshOtanh cotanhO...
(10%) Problem 7: Two lenses are mounted d 28 cm apart on an optical bench. The focal length of the first lens ish = 8.7 cm and that of the second lens is = 4.4 cm. An object of height h.-4.4 cm is placed at a distance of do-22 cm in front of the first lens E 25% Part (a) Ignoring the second lens for now, at what distance in centimeters behind the first lens is the object's image formed...
(10%) Problem 4: A doctor examines a mole with a 15-cm focal length magnifying glass held 11 cm from the mole. Randomized Variables do 11 cm -* 33% Part (a) What is the image distance for this configuration in meters? dy 1768 Incorrect 33% Part (b) What is its magnification? m0.842 m--0842Attempts Remain 33% Part (c) How big is the image of a 5.00 mm diameter mole in millimeters? Grade Summary Deductions Potential h,-3.36 8% 92% sin cosO tan07 789HOME...
Please show all work !! (10%) Problem 9: A point charge Q-4.6 nC is located at the origin. A cylinder of radius R- 0.55 m is concentric with the z-axis with the top of the cylinder at height H1- 0.45 m above the origin and the bottom of the cylinder at height H2045 m below the origin. Refer to the figure. The y-axis points into the screen Z-axis X-axis Otheexpertta.com 20% Part (a) Calculate the electric flux passing out through...
(10%) Problem 7: Two lenses are mounted d 28 cm apart on an optical bench. The focal length of the first lens ish = 8.7 cm and that of the second lens is = 4.4 cm. An object of height h.-4.4 cm is placed at a distance of do-22 cm in front of the first lens 25% Part (a) Ignoring the second lens for now, at what distance, in centimeters, behind the first lens is the object's image formed by...
(13%) Problem 2: You are told that a basketball player spins the ball on his finger with an angular acceleration of 118 rad sa 50% Part (a) What is the ball's final angular speed in radians per second, if the ball starts from rest and the acceleration lasts 3.4 s? Grade Summary Deductions Potential Late work % 95% Late Potential 95% 0% 400% sinO cosO tan() π Submissions Attempts remaining: 10 (0%per attempt) detailed view cotanOacos) atan) acotan sinhO coshO...