(17%) Problem 1: A uniform electric field of magnitude E = 48 N/C points along the...
(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...
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...
Part (b) (13%) Problem 7: A uniform electric field of magnitude E-48 NC points along the x- axis. A circular loop of radius R 21 cm is centered at the origin with the normal to the loop pointing 645 degrees above the x-axis. Otheexpertta.com 50% Part (a) Calculate the electric flux in units ofN㎡C that passes through the loop. 4.7 Correct! ▲ 50% Part (b) To what angle in degrees relative to the x-axis should the normal of the loop...
(10%) Problem 6: left of the lens A candle (ho-0.27 m) is placed to the left of a diverging lens (f=-0.053 m). The candle is do-0.32 m to the 33% Part (a) Numerically, what is the image distance, di in meters? Grade Summary Deductions Potential 0% 100% Submissions 78 9 4 5 6 12 3 sinO tan Attempts remaining: 3 cotan)asin) acosO % per attempt) detailed view atanOacotan) sinhO cosh0 anh0 cotanh0 0 END Degrees O Radians CLEAR Submit I...
(8%) Problem 3: A doctor examines a mole with a 15-cm focal length magnifying glass held 11 cm from the mole Randomized Variables do - 11 cnm 33% Part (a) What is the image distance for this configuration in meters? Grade Summary Deductions Potential 0% 100% Submissions 78 9 4 5 6 12 3 sinO tan Attempts remaining: S cotan)asin) acosO % per attempt) detailed view atanOacotan) sinhO cosh0 anh0 cotanh0 0 END Degrees -Radians CLEAR Submit I give up!...
(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:...
Can someone aid me in my quest to discover a solution to these 2-part question below? Also, if possible, could you be as descriptive as humanly possible in your work, so I can grasp a better understanding of the overall concepts? Otheexpertta.com ines near a pointc Grade Summary 50% Part (b) Select the corre ct diagram which represents the electric field lines near a point charge -3q. -30 3 (13%) Problem 7: A uniform electric field of magnitude E 22...
Problem 2: A uniform electric field of magnitude E=24 NC points along the x-axis. A circular loop of radius R=25 cm is centered at the origin with the normal to the loop pointing θ=65 degrees above the x-axis. Part (a) Calculate the electric flux in units of Nm2/C that passes through the loop.
Problem 7: A uniform electric field of magnitude E=48 NC points along the x-axis. A circular loop of radius R=21 cm is centered at the origin with the normal to the loop pointing θ=45 degrees above the x-axis. Part (a) Calculate the electric flux in units of Nm2C that passes through the loop.
(8%) Problem 11: Lasers can be constructed to produce an extremely high-intensity electromagnetic wave for a very brief time Such lasers are called "pulsed lasers". They are used to ignite nuclear fusion, for example. Such a laser may produce an electromagnetic wave with a maximum electric field strength of 0.18 x 101 V /m for a time of 0.75 ns Randomized Variables Eo 0.18 x 1011 V/m t= 0.75 ns 33% Part (a) What is the maximum magnetic field strength...