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A long, uniformly charged ribbon is located in the xz plane, parallel to the z-axis, occupying...
A long, uniformly charged ribbon is located in the xz plane, parallel to the z axis,...
A long, uniformly charged ribbon is located in the xz plane, parallel to the z axis, occupying the region-o Zoo and -a/2sx a/2. The charge per unit arca on the ribbon is o (a) Determine E at (x, 0, 0), where x > a/2. What is the asymptotic field on the x axis? (b) Determine E at (O, y, 0), where y > 0. What is the asymptotic field on the y axis?
An extremely large but thin uniformly charged plane of surface charge density 1.7×10−9C/m2 lays in the xz...
An extremely large but thin uniformly charged plane of surface charge density 1.7×10−9C/m2 lays in the xz -plane and passes through the origin. Also, an extremely long but thin uniformly charged wire of linear charge density 6.1×10−9C/m lays parallel to the x -axis and passes through ry= 0.72m and rz= 0m . Finally, a small charged bead of net charge 3.4×10−9C is held at 0.39m i^+ 0.19m j^+ 0m k^ . What is the magnitude of the electric field at −0.3m i^+ 0.19m j^+ 0m k^ due to the charged bead?
Two uniformly charged, infinite, nonconducting planes are parallel to a yz plane and positioned at x--43...
Two uniformly charged, infinite, nonconducting planes are parallel to a yz plane and positioned at x--43 cm and x- +43 cm. The charge densities on the planes are -46 nC/m2 and +16 nC/m2, respectively. What is the magnitude of the potential difference between the origin and the point on the x axis at x = +77 cm? (Hint: Use Gauss' law for planar symmetry to determine the electric field in each region of space.) Number TT3.01e3 Units the tolerance is...
2) A very large number of very long wires are arranged to form a current-carrying “ribbon,"...
2) A very large number of very long wires are arranged to form a current-carrying “ribbon," as shown in the figure below. Each wire can be assumed to have negligible radius and carries the same current I (in the same direction). The ribbon is oriented in the xy-plane, at z =0. Hint: This problem has planar symmetry, so consider how you might apply Ampere's Law. Also note that this problem is equivalent to an infinite current-carrying sheet with surface a...
(1 point) Two long wires are parallel to the z axis and are located at x...
(1 point) Two long wires are parallel to the z axis and are located at x = 0, y = +a. Take a = 9 cm. a) Find B at point P with b = 10 cm, given that the wires carry equal currents in opposite direction I = 12 = 7A. B =( јт b) At what point is B equal to 45 % of the magnitude of the magnetic field at origin (0,0,0)? (Hint, find the magentic field...
A circular disk of radius 'a' is uniformly charged with ps C/m2. If the disk lies on the = 0 plane with its axis along the z-axis. Determine:
A circular disk of radius 'a' is uniformly charged with ps C/m2. If the disk lies on the = 0 plane with its axis along the z-axis. Determine: (a) The electric field at (0, 0, -h) (b) From this, derive the electric field due to an infinite şheet of charge on the z = 0 plane at (0, 0, -h) (c) What will be the electric field at(0,0,-h) if a → 0
Uniformly Charged Disk Part A The figure below shows a thin uniformly charged disk with surface...
Uniformly Charged Disk Part A The figure below shows a thin uniformly charged disk with surface charge density σ and radius R. Imagine the disk divided into rings of varying radii r. Find an expression for the charge dą on a ring with radius r and thickness dr. Your expression should be in terms of the given variables and other known constants such as k Greek letters should be spelled out, for example type sigma" without the quotations for σ...
A long uniformly charged thread (linear charge density A -2.1 C/m) lies along the z axis in the figure.
A long uniformly charged thread (linear charge density A -2.1 C/m) lies along the z axis in the figure.(Figure 1) A small charged sphere (Q =-2.4 C ) is at the point x=0 cm, y = -5.0 cm.Part AWhat is the direction of the electric field at the point x = 7.0 cm, y =7.0 cm? Ethread and EQ represent fields due to the long thread and the charge Q, respectively.Part B What is the magnitude of the electric field at...
Figure (a) shows three plastic sheets that are large, parallel, and uniformly charged. Figure (b) gives the component of the net electric field along an x axis through the sheets.
Figure (a) shows three plastic sheets that are large, parallel, and uniformly charged. Figure (b) gives the component of the net electric field along an x axis through the sheets. The scale of the vertical axis is set by Es = 6.6 x 105 N/C. what is the ratio of the charge density on sheet 3 to that on sheet 2?
A long, uniformly charged ribbon is located in the xz plane, parallel to the z axis, occupying the region-o Zoo and -a/2sx a/2. The charge per unit arca on the ribbon is o (a) Determine E at (x, 0, 0), where x > a/2. What is the asymptotic field on the x axis? (b) Determine E at (O, y, 0), where y > 0. What is the asymptotic field on the y axis?
Two uniformly charged, infinite, nonconducting planes are parallel to a yz plane and positioned at x--43 cm and x- +43 cm. The charge densities on the planes are -46 nC/m2 and +16 nC/m2, respectively. What is the magnitude of the potential difference between the origin and the point on the x axis at x = +77 cm? (Hint: Use Gauss' law for planar symmetry to determine the electric field in each region of space.) Number TT3.01e3 Units the tolerance is...
2) A very large number of very long wires are arranged to form a current-carrying “ribbon," as shown in the figure below. Each wire can be assumed to have negligible radius and carries the same current I (in the same direction). The ribbon is oriented in the xy-plane, at z =0. Hint: This problem has planar symmetry, so consider how you might apply Ampere's Law. Also note that this problem is equivalent to an infinite current-carrying sheet with surface a...
(1 point) Two long wires are parallel to the z axis and are located at x = 0, y = +a. Take a = 9 cm. a) Find B at point P with b = 10 cm, given that the wires carry equal currents in opposite direction I = 12 = 7A. B =( јт b) At what point is B equal to 45 % of the magnitude of the magnetic field at origin (0,0,0)? (Hint, find the magentic field...
Uniformly Charged Disk Part A The figure below shows a thin uniformly charged disk with surface charge density σ and radius R. Imagine the disk divided into rings of varying radii r. Find an expression for the charge dą on a ring with radius r and thickness dr. Your expression should be in terms of the given variables and other known constants such as k Greek letters should be spelled out, for example type sigma" without the quotations for σ...
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