A line of charge is 1.5m long and has total charge of 13nC, what is the...
A line of charge is 1.5m long and has total charge of 13nC, what is the electric potential 0.5m directly to the right of the line of charge? Derive an integral expression for the electric potential at this location, evaluate the integral
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A line of charge is 1.5m long and has total charge of 13nC, what
is the...
A line of charge has a total charge of 13nC and length of 1.5m what is...
A line of charge has a total charge of 13nC and length of 1.5m what is the electric field magnitude and direction at 1m directly above the midpoint of the line of charge. calculate the linear charge density of this line of charge. Derive an integral expression for the magnitude and direction of the electric field at this location
An infinitely long line of charge has a linear charge density λ, in units of C/m....
An infinitely long line of charge has a linear charge density λ, in units of C/m. (a) (3 pts.) Describe the shape Gaussian surface you would use for this charge configuration and the electric flux for this surface. Do all of the parts of this Gaussian surface have a nonzero electric flux? Explain. (b) (3 pts.) Derive an expression for the electric field in terms of the linear charge density λ. (c) (4 pts.) Briefly show how you would find...
Consider a 1.8 meter long charged rod with total charge of +4. 1.8 m Q =...
Consider a 1.8 meter long charged rod with total charge of +4. 1.8 m Q = +4 uc 20 cm P 30 cm a) Setup the integral needed to calculate the electric potential at location P. Specify integral limits and expressions or values for and , but do not evaluate the integral. b) What is the physical meaning of ? c) Why do we need to use an integral to calculate electric potential for this problem, why can't we just...
Consider a 1.8 meter long charged rod with total charge of +4. 1.8 m Q =...
Consider a 1.8 meter long charged rod with total charge of +4. 1.8 m Q = +4 uc 20 cm P 30 cm a) Setup the integral needed to calculate the electric potential at location P. Specify integral limits and expressions or values for and, but do not evaluate the integral. b) What is the physical meaning of da? c) Why do we need to use an integral to calculate electric potential for this problem, why can't we just use...
Charge 1 is 1uC, charge 2 is -1uC and is placed 0.5m to the right of...
Charge 1 is 1uC, charge 2 is -1uC and is placed 0.5m to the right of Charge 1, what is the electric potential at a distance of 0.5m directly above the negative charge?
L(a) A long (L>> a) cylinder in vacuum has a line charge density p is shown...
L(a) A long (L>> a) cylinder in vacuum has a line charge density p is shown below, (). State the Gauss's law for electric field in words. [1) (i). In order to calculate the electric field inside the cylinder using Gauss's Law, draw an appropriate Gaussian surface in the cylinder. [1] (i). Use the above information or otherwise, show that the electric field in the radial direction Pt inside the cylinder is ,2a (assume that the charge is evenly distributed...
Consider two long, parallel and oppositely charged wires of radius Y with their centers separated by...
Consider two long, parallel and oppositely charged wires of radius Y with their centers separated by a distance D (D>>r). The charges are uniformly distributed strictly on the surface of each wire, with a line charge density A. Using Gauss's Law, derive an expression for the total electric field in the space between the two wires. ((1) consider each wire individually and then add the individual contributions; (2): the wires'length extends to infinity, and thus the two wires can be...
A charge of 1nC is placed at the origin, another 1nC charge is placed 0.75m directly...
A charge of 1nC is placed at the origin, another 1nC charge is placed 0.75m directly to the right of the first charge. What is the magnitude and direction of the electric field 0.5m directly above the charge on the right.
Derive the expression for the electric field near an infinite line of charge with uniform charge...
Derive the expression for the electric field near an infinite line of charge with uniform charge density λ by integrating the Coulomb’s law field from every infinitesimal amount of charge along the line. This is a great op- portunity to use Mathematica to do the integral. If you get stuck, refer to Example 20.7 on pages 337-338 of the text. If you use Mathematica , attach a pdf copy of the notebook or copy the relevant sections to your writeup.
2) A long plastic cylinder with a radius of R and length L has a uniform...
2) A long plastic cylinder with a radius of R and length L has a uniform positive charge density. The total charge on the cylinder is Q. (a) Derive an approximate formula for the electric field as a function of r near the surface at location A. (b) Derive an approximate formula for the electric field as a function of r for locations inside the cylinder near the center such as location B.
Consider a 1.8 meter long charged rod with total charge of +4. 1.8 m Q = +4 uc 20 cm P 30 cm a) Setup the integral needed to calculate the electric potential at location P. Specify integral limits and expressions or values for and , but do not evaluate the integral. b) What is the physical meaning of ? c) Why do we need to use an integral to calculate electric potential for this problem, why can't we just...
Consider a 1.8 meter long charged rod with total charge of +4. 1.8 m Q = +4 uc 20 cm P 30 cm a) Setup the integral needed to calculate the electric potential at location P. Specify integral limits and expressions or values for and, but do not evaluate the integral. b) What is the physical meaning of da? c) Why do we need to use an integral to calculate electric potential for this problem, why can't we just use...
L(a) A long (L>> a) cylinder in vacuum has a line charge density p is shown below, (). State the Gauss's law for electric field in words. [1) (i). In order to calculate the electric field inside the cylinder using Gauss's Law, draw an appropriate Gaussian surface in the cylinder. [1] (i). Use the above information or otherwise, show that the electric field in the radial direction Pt inside the cylinder is ,2a (assume that the charge is evenly distributed...
Consider two long, parallel and oppositely charged wires of radius Y with their centers separated by a distance D (D>>r). The charges are uniformly distributed strictly on the surface of each wire, with a line charge density A. Using Gauss's Law, derive an expression for the total electric field in the space between the two wires. ((1) consider each wire individually and then add the individual contributions; (2): the wires'length extends to infinity, and thus the two wires can be...
2) A long plastic cylinder with a radius of R and length L has a uniform positive charge density. The total charge on the cylinder is Q. (a) Derive an approximate formula for the electric field as a function of r near the surface at location A. (b) Derive an approximate formula for the electric field as a function of r for locations inside the cylinder near the center such as location B.
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