Please show the FORMULA first and then solve for values
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Please show the FORMULA first and then solve for values
(1 point) THE PROBLEM A cylinder...
2:49 ) (1 point) THE PROBLEM Standard electrical wires used in houses have a diameter of...
2:49 ) (1 point) THE PROBLEM Standard electrical wires used in houses have a diameter of d 2.053 mm and are approved for currents up to 20.0 A. If the current in a particular wire is I-18 A, calculate the magnetic field strength (a) inside the wire, -0.147 mm from the centre. (b) at the surface of the wire. (c) outside the wire, at distance L-0.373 mm from the surface of the wire PAPER SOLUTION INTERPRET Identify all of the...
The charge distribution described in this problem is cylindrically symmetric because it is symmetric under the...
The charge distribution described in this problem is
cylindrically symmetric because it is symmetric under the
following three geometric transformations: a translation parallel
to the rod's axis, a rotation by any angle about the rod's axis,
and a reflection in any plane containing or perpendicular to the
rod's axis. In other words, no noticeable or measurable change
occurs if you shift the infinitely-long rod by any distance along
its axis, or turn the rod by any angle about its axis,...
3. For a while in the early 20th century one proposed model for the structure of...
3. For a while in the early 20th century one proposed model for the structure of atoms was that a positive point charge (the nucleus) +Ze was at the center of a charged sphere of radius R and charge -Ze. To be clear, the negative charge in the sphere was proposed to be spread through the volume of the sphere, not on its surface. Z is the atomic number. (a) In terms of the symbols, Z and R, what is...
Consider a hollow metal sphere of inner radius r=16.5 cm and outer radius R-20.5 cm. The...
Consider a hollow metal sphere of inner radius r=16.5 cm and outer radius R-20.5 cm. The sphere is not charged, but there is a point charge of q-253 nC at the centre of the sphere (a) Calculate the charge density on the sphere's outer surface (b) Calculate the electric field strength at the sphere's outer surface. PAPER SOLUTION Solve the problem on paper first, including all four IDEA steps. You will become a better physicist that way! Have you finished...
Please help with both parts a and b, thank you. 57. The thin glass rod of...
Please help with both parts a and b, thank you.
57. The thin glass rod of length e in Figure P23.57 has a linear charge density that starts out as zero at the left end of the rod and increases linearly from left to right. The positive charge on the rod is grod- (a) What is the electric field along the rod's axis at position P, which lies a distance d from the right end of the rod? (b) What...
Please answer correctly and read it carefully (1096) Problem 3: An infinitely long rod lies along...
Please answer correctly and read it carefully
(1096) Problem 3: An infinitely long rod lies along the x-axis and carries a uniform linear charge density λ SpCm. A hollow cone segment of height H= 29 cm lies concentric with the x-axis. The end around the origin has a radius R- 10 cm and the far end has a radius R2- 19 cm. Refer to the figure. V-axis X-axis Otheexpertta.com 1496 Part (a) Consider the conic surface to be sliced vertically...
For a while in the early 20th century one proposed model for the structure of atoms...
For a while in the early 20th century one proposed model for the structure of atoms was that a positive point charge (the nucleus) +Ze was at the center of a charged sphere of radius R and charge −Ze. To be clear, the negative charge in the sphere was proposed to be spread through the volume of the sphere, not on its surface. Z is the atomic number. (a) In terms of the symbols, Z and R, what is the...
Can you solve part(d) please. (11 %) Problem 9: An infinitely long rod lies along the...
Can you solve part(d) please.
(11 %) Problem 9: An infinitely long rod lies along the y-axis and cames a uniform linear charge density λ ,SIC/n. A flat rectangular surface is situated parallel to the y-z plane with one corner at (x1,0,0) and the opposite corner at (x1y21) were x-9cm,y = 2 cm, and z,-15.0 cm. Refer to the figure, where the x-axis points out of the screen z-axis y-axis Otheespertta.com -V 25% Part (a) Consider an arbitrary point on...
I need help to solve all the parts of this problem please. 13.6 Begin Date: 1/19/2019...
I need help to solve all the parts of this problem
please.
13.6 Begin Date: 1/19/2019 12:0 AM- -Due Date: 1/30/2019 10:15:00 AM End Date: 5/15/2019 11:59:00 AM 20 %) Problem 2: A copper spherical ball of radius 20 cm contains-30 C charge spread over its surface. There are no excess charges inside the ball. ▲ 33% Part (a) ii in N/C? Find the surface charge density (C/m2) 33% Part (b) what is the magnitude of the electric field of...
Q3: Gauss's Law Problem Statement A-100 nC point charge sits at the center of a hallow...
Q3: Gauss's Law Problem Statement A-100 nC point charge sits at the center of a hallow spherical shell. The shell with radius 0.1 cm and negligible thickness, has a net charge of 200 nC. Find the electric field strength a) inside the sphere at r=0.05cm from the center, and b) outside the sphere at r=0.15cm from the center. In what direction does the electric field point in each case? Visual Representation • Draw a sketch of the charge distribution. •...
2:49 ) (1 point) THE PROBLEM Standard electrical wires used in houses have a diameter of d 2.053 mm and are approved for currents up to 20.0 A. If the current in a particular wire is I-18 A, calculate the magnetic field strength (a) inside the wire, -0.147 mm from the centre. (b) at the surface of the wire. (c) outside the wire, at distance L-0.373 mm from the surface of the wire PAPER SOLUTION INTERPRET Identify all of the...
The charge distribution described in this problem is
cylindrically symmetric because it is symmetric under the
following three geometric transformations: a translation parallel
to the rod's axis, a rotation by any angle about the rod's axis,
and a reflection in any plane containing or perpendicular to the
rod's axis. In other words, no noticeable or measurable change
occurs if you shift the infinitely-long rod by any distance along
its axis, or turn the rod by any angle about its axis,...
3. For a while in the early 20th century one proposed model for the structure of atoms was that a positive point charge (the nucleus) +Ze was at the center of a charged sphere of radius R and charge -Ze. To be clear, the negative charge in the sphere was proposed to be spread through the volume of the sphere, not on its surface. Z is the atomic number. (a) In terms of the symbols, Z and R, what is...
Consider a hollow metal sphere of inner radius r=16.5 cm and outer radius R-20.5 cm. The sphere is not charged, but there is a point charge of q-253 nC at the centre of the sphere (a) Calculate the charge density on the sphere's outer surface (b) Calculate the electric field strength at the sphere's outer surface. PAPER SOLUTION Solve the problem on paper first, including all four IDEA steps. You will become a better physicist that way! Have you finished...
Please help with both parts a and b, thank you.
57. The thin glass rod of length e in Figure P23.57 has a linear charge density that starts out as zero at the left end of the rod and increases linearly from left to right. The positive charge on the rod is grod- (a) What is the electric field along the rod's axis at position P, which lies a distance d from the right end of the rod? (b) What...
Please answer correctly and read it carefully
(1096) Problem 3: An infinitely long rod lies along the x-axis and carries a uniform linear charge density λ SpCm. A hollow cone segment of height H= 29 cm lies concentric with the x-axis. The end around the origin has a radius R- 10 cm and the far end has a radius R2- 19 cm. Refer to the figure. V-axis X-axis Otheexpertta.com 1496 Part (a) Consider the conic surface to be sliced vertically...
Can you solve part(d) please.
(11 %) Problem 9: An infinitely long rod lies along the y-axis and cames a uniform linear charge density λ ,SIC/n. A flat rectangular surface is situated parallel to the y-z plane with one corner at (x1,0,0) and the opposite corner at (x1y21) were x-9cm,y = 2 cm, and z,-15.0 cm. Refer to the figure, where the x-axis points out of the screen z-axis y-axis Otheespertta.com -V 25% Part (a) Consider an arbitrary point on...
I need help to solve all the parts of this problem
please.
13.6 Begin Date: 1/19/2019 12:0 AM- -Due Date: 1/30/2019 10:15:00 AM End Date: 5/15/2019 11:59:00 AM 20 %) Problem 2: A copper spherical ball of radius 20 cm contains-30 C charge spread over its surface. There are no excess charges inside the ball. ▲ 33% Part (a) ii in N/C? Find the surface charge density (C/m2) 33% Part (b) what is the magnitude of the electric field of...
Q3: Gauss's Law Problem Statement A-100 nC point charge sits at the center of a hallow spherical shell. The shell with radius 0.1 cm and negligible thickness, has a net charge of 200 nC. Find the electric field strength a) inside the sphere at r=0.05cm from the center, and b) outside the sphere at r=0.15cm from the center. In what direction does the electric field point in each case? Visual Representation • Draw a sketch of the charge distribution. •...
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