The following charges distributions are present in free space as shown in Figure, point charge 6 nC at P(2,0,6), a uniform infinite line charge density 1.5 nC/m at x--2, y - 3, and infinite surface charge density 0.1 nC/m2 at x- 2. the electric field at origin due to the point charge only is line charge point charge (2,0,6) (-2,3,0) surface charge -0.427ax-1.281az 4.15ax-6.22ay -5.675 ax None of These
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- The figure shows two parallel nonconducting rings with their central axes along a common line. Ring 1 has uniform charge qi and radius R; ring 2 has uniform charge q2 and the same radius R. The rings are separated by distance d = 3R. The net electric field at point P in the common line, at distance R from rina 1, is zero. What is the ratio q1/q2? Ring I Ring 2Figure a below shows two charged particles fixed in place on an x axis with separation L. The ratio 91/92 of their charge magnitudes is 3.30. Figure b shows the x component Enet,x of their net electric field along the x axis just to the right of particle 2. The x axis scale is set by XS = 33.0 cm. +9₁ -92 GO Tutorial |———— y -X Enet,x(10-8 N/C) (a) (a) At what value of x > 0 is Enet,x maximum? 0.2 X m O ✔ 2 0 -2 -4 0 x (cm) (b) (b) If particle 2 has charge -92 = -3e, what is the value of that maximum? N/CThe diagram shows two identical particles, each with positive charge Q. The electric field at point P on the perpendicular bisector of the line joining them is: KP zero O 00
- A horizontal insulating rod of length 6.8-cm and charge 19 nC is in a plane with a long straight vertical uniform line charge. The linear charge density of the long line charge is 3.3 10-7 C/m. What is the electric force on the rod if the end closest to the line charge is 2.0 cm away? Hint: the electric field from an infinitely long straight uniform line charge is E(r) = (2 k λ) /r .A very long uniformly charged wire (linear charge density λ = 4.3 C/m) lies along the Z axis in (Eigure 1). A small charged sphere (Q-3.8 C) is at the point z=0 cm. y = -5.0 cm. Figure wire 70 cm 5.0 cm 10 Q 70cm Eo Ein < 1 of 1 What is the magnitude of the electric field at the point z = 7.0 cm. y = 7.0 cm? Ewire and EQ represent fields due to the long wire and the charge Q. respectively. Express your answer with the appropriate units. E-2.1.10¹2 μA Part B 4 Submit Previous Answers Request Answer 0g = N C Submit O X Incorrect; Try Again; One attempt remaining What is the direction of the electric field at the point z = 7.0 cm. y = 7.0 cm? Express your answer in degrees. IVD ΑΣΦ ? [www] ? Previous Answers Request Answer 0 11 measured counterclockwise from the + axisA positively charged particle is held at the center of a spherical shell. The figure gives the magnitude E of the electric field versus radial distance r. The scale of the vertical axis is set by Es = 8.0 × 10' N/C. Approximately, what is the net charge on the shell? Assume r = 3 cm. ers E, 2r, 3r, 4r, 5r, r (cm) Number i Units
- Assume you have a line of positive charge with a linear charge density of 10.0 µC/m. Assume that this line of charge is infinitely long and lies on the z-axis (which is perpendicular to both the x- and y-axes). a) Find the strength and direction of the electric field associated with this line of charge at (0.5 m, 0 m, 0 m) The strength of the field at the stated point is N/C and the direction of the field at the stated point is O-x O+x O-y O+y O-z O+z b) Find the strength and direction of the electric field associated with this line of charge at (0 m, 0.5 m, 5 m) The strength of the field at the stated point is N/C and the direction of the field at the stated point is O-x O+x O-y O+y O-z O+z c) Find the strength and direction of the electric field associated with this line of charge at (2.0 m, 0 m, Om) The strength of the field at the stated point is N/C and the direction of the field at the stated point is O-x O+x O-y O+y O-z O+zAn infinite sheet charge of has a charge density of +44.81 pC/m2 and covers the entire x-y plane. A second infinite sheet of charge has a charge density of −53.2 pC/m2 covers the entire y-z plane. What is the magnitude of the electric field at any point not on either surface?An infinite line of charge with linear density 1 a thick conducting cylindrical shell of inner radius a = 2.5 m and outer radius b = 4.5 m and infinite length. The conducting cylindrical shell is uniformly charged with a linear charge density A 2 = - 2.2 µC/m. What is Ex(P), the electric field at point P, located at (x,y) = (-8.8 m, 0 m)? = + 5.5 µC/m is positioned along the axis of :30
- A sphere of radius a is filled with a positive charge with uniform density p. Then a smaller sphere of radius a/2 is carved out leaving and empty cavity as shown in the drawing. What is the direction and magnitude of the electric field at point A? (Hint: Use superposition concepts) Select one: ρα Oa. E: = upward 360 Ob. It is not possible to calculate because there is no spherical symmetry. 2pa downward C. E: = 360 ρα O d. E= upward 660 ρα ○ e. E = downward 860 ○ f. 7pa E= upward 860(10% ) Problem 7: An infinite conducting cylindrical shell of outer radius ri-0.10 m and inner radius r2 0.08 m initially carries a surface charge density 0.15 μC/m2 A thin wire with linear charge density 1.3 μC m s nserted along the shells' axis. The shell and the wire do not touch and these is no charge exchanged between them Banchi, Stephen - banchis3@students.rowan.edu @ theexpertta.com - tracking id: 2N74-2F-82-4A-BAAB-13083. In accordance with Expert TA's Terms of Service. copying this information to any solutions sharing website is strictly forbidden. Doing so may result in termination of your Expert TA Account. -a33% Part (a) What is the new surface charge density, in microcoulombs per square meter, on the inner surface of the cylindrical shell? -là 33% Part (b) What is the new surface charge density, in microcoulombs per square meter, on the outer surface of the cylindrical shell? 33% Part (c) Enter an expression for the magnitude of the electric field outside the cylinder (r…The electric flux density of a charge distribution with spherical symmetry is given by (a³po -âr, r2 a 3r2 rpo D = r a C-