A long, thin wire carrying 3.12*10^-9 C/m runs down the center of a long, thin-walled, hollow...
A long, thin wire carrying 3.12*10^-9 C/m runs down the center of a long, thin-walled, hollow pipe with radius 3.00 cm carrying 6.81*10^-9 C/m spread uniformly over its surface. Find the electric field 4.0 cm from the wire. Use a cylindrical Gaussian surface.
Please explain how the answer 4462.3 N/C.
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A long, thin wire carrying 3.12*10^-9 C/m runs down the center
of a long, thin-walled, hollow...
Constants| Periodic Table Find the electric field 0.50 cm from the wire. A long, thin wire...
Constants| Periodic Table Find the electric field 0.50 cm from the wire. A long, thin wire carrying 5.6 nC/m runs down the center of a long, thin-walled, hollow pipe with radius 1.0 cm carrying -3.6 nC/m spread uniformly over its surface Express your answer using two significant figures. kN/C Submit ue ▼ Part B Find the electric field 1.5 cm from the wire Express your answer using two significant figures. kN/C
6. (20 points) A coaxial cable consists of an infinitely long thin wire carrying a charge...
6. (20 points) A coaxial cable consists of an infinitely long thin wire carrying a charge density λ= +1 mcm surrounded by a hollow cylindrical conductor of radius 1 cm, carrying a charge density λ--2 mC/m. Use Gauss's Law to find the electric field at r= 0.5 cm and r= 2 cm
Long Answers 13. An infinitely long wire is charged uniformly to +2.00 mC/m and then encased...
Long Answers 13. An infinitely long wire is charged uniformly to +2.00 mC/m and then encased in an insulating layer of radius 10.0 cm. A thin conducting cylindrical outer shell covers the insulation and is charged to -5.00 mc/m^2. Draw a diagram of this setup with an appropriate Gaussian surface. (5, pts) Then, use Gauss's Law to find the electric fields inside the insulating layer and outside of the shell. (10 pts) How would these answers change if the insulation...
An infinitely long, thin wire has a known current of 2i, which flows in the negative...
An infinitely long, thin wire has a known current of 2i, which flows in the negative x-direction. It is surrounded by an infinitely long, hollow cylindrical wire so the wires have a common axis. The hollow wire has inner radius A and outer radius B. A known current i, which is uniformly spread over the hollow wire, flows in the positive x-direction in the hollow cylindrical wire. Cross-Section View A 2i i 0 +x 2 Z B +x What is...
A thin (radius r=1.15 mm) long wire is used to build a solenoid: the wire is...
A thin (radius r=1.15 mm) long wire is used to
build a solenoid: the wire is densely (subsequent turns touching
each other) wound around a cylindrical surface of the diameter
D=7.8 cm.
When electric current I=1.5 A runs in this
wire, what is the magnitude
Bsol of the magnetic
field in the center of the solenoid?:
Bsol= ______ G.
Let us now compare that magnetic field to the magnetic field
B1 that would be produced just by a
single circular...
An infinitely long, thin wire has a known current of 2i, which flows in the negative...
An infinitely long, thin wire has a known current of 2i, which flows in the negative x-direction. It is surrounded by an infinitely long, hollow cylindrical wire so the wires have a common axis. The hollow wire has inner radius A and outer radius B. A known current i, which is uniformly spread over the hollow wire, flows in the positive x-direction in the hollow cylindrical wire. Cross-Section View A 21 0 +x 2 Z B 210. +x ♡ What...
A long current carrying hollow wire has an inner radius of 1.20 cm and an outer...
A long current carrying hollow wire has an inner radius of 1.20 cm and an outer radius of 12.7 cm. The current in the wire is 6.00 A. Find the magnetic field at a distance 6.40 cm from the center of the wire.
Question 9 and 10 9. An infinite wire contains a linear charge distribution of magnitude 10...
Question 9 and 10
9. An infinite wire contains a linear charge distribution of magnitude 10 microcoulombs per meter. What is the electric field at a distance of 10 cm radially away from the wire? 10. By constructing a spherical Gaussian surface of radius r concentric with a sphere of radius a (a less than r) which carries a charge q distributed uniformly over it's surface, show that the electric fleld outside the charged surface is identical with that of...
A long straight wire has fixed negative charge with a linear charge density of magnitude 3.2...
A long straight wire has fixed negative charge with a linear charge density of magnitude 3.2 nC/m. The wire is to be enclosed by a coaxial, thin-walled, nonconducting cylindrical shell of radius 2.0 cm. The shell is to have positive charge on its outside surface with a surface charge density σ that makes the net external electric field is zero. Calculate σ.
Please solve and explain how its done. A thin (radius r=0.6 mm) long wire is used...
Please solve and explain how its done.
A thin (radius r=0.6 mm) long wire is used to build a solenoid: the wire is densely (subsequent turns touching each other) wound around a cylindrical surface of the diameter D=2.3 cm. When electric current 1=4.3 A runs in this wire, what is the magnitude Bsol of the magnetic field in the center of the solenoid?: Bsol= G. Let us now compare that magnetic field to the magnetic field B1 that would be...
Constants| Periodic Table Find the electric field 0.50 cm from the wire. A long, thin wire carrying 5.6 nC/m runs down the center of a long, thin-walled, hollow pipe with radius 1.0 cm carrying -3.6 nC/m spread uniformly over its surface Express your answer using two significant figures. kN/C Submit ue ▼ Part B Find the electric field 1.5 cm from the wire Express your answer using two significant figures. kN/C
6. (20 points) A coaxial cable consists of an infinitely long thin wire carrying a charge density λ= +1 mcm surrounded by a hollow cylindrical conductor of radius 1 cm, carrying a charge density λ--2 mC/m. Use Gauss's Law to find the electric field at r= 0.5 cm and r= 2 cm
Long Answers 13. An infinitely long wire is charged uniformly to +2.00 mC/m and then encased in an insulating layer of radius 10.0 cm. A thin conducting cylindrical outer shell covers the insulation and is charged to -5.00 mc/m^2. Draw a diagram of this setup with an appropriate Gaussian surface. (5, pts) Then, use Gauss's Law to find the electric fields inside the insulating layer and outside of the shell. (10 pts) How would these answers change if the insulation...
An infinitely long, thin wire has a known current of 2i, which flows in the negative x-direction. It is surrounded by an infinitely long, hollow cylindrical wire so the wires have a common axis. The hollow wire has inner radius A and outer radius B. A known current i, which is uniformly spread over the hollow wire, flows in the positive x-direction in the hollow cylindrical wire. Cross-Section View A 2i i 0 +x 2 Z B +x What is...
A thin (radius r=1.15 mm) long wire is used to
build a solenoid: the wire is densely (subsequent turns touching
each other) wound around a cylindrical surface of the diameter
D=7.8 cm.
When electric current I=1.5 A runs in this
wire, what is the magnitude
Bsol of the magnetic
field in the center of the solenoid?:
Bsol= ______ G.
Let us now compare that magnetic field to the magnetic field
B1 that would be produced just by a
single circular...
An infinitely long, thin wire has a known current of 2i, which flows in the negative x-direction. It is surrounded by an infinitely long, hollow cylindrical wire so the wires have a common axis. The hollow wire has inner radius A and outer radius B. A known current i, which is uniformly spread over the hollow wire, flows in the positive x-direction in the hollow cylindrical wire. Cross-Section View A 21 0 +x 2 Z B 210. +x ♡ What...
Question 9 and 10
9. An infinite wire contains a linear charge distribution of magnitude 10 microcoulombs per meter. What is the electric field at a distance of 10 cm radially away from the wire? 10. By constructing a spherical Gaussian surface of radius r concentric with a sphere of radius a (a less than r) which carries a charge q distributed uniformly over it's surface, show that the electric fleld outside the charged surface is identical with that of...
Please solve and explain how its done.
A thin (radius r=0.6 mm) long wire is used to build a solenoid: the wire is densely (subsequent turns touching each other) wound around a cylindrical surface of the diameter D=2.3 cm. When electric current 1=4.3 A runs in this wire, what is the magnitude Bsol of the magnetic field in the center of the solenoid?: Bsol= G. Let us now compare that magnetic field to the magnetic field B1 that would be...
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