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If a conductor carries a steady current of 1 A, then the quantity of charge that...
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor. (b) Det...
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor. (b) Determine the vector magnetic potential (A) both inside and outside the conductor from the relationship B V x A
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor....
Phys 0600 Q21W20C Quiz - Ch. 21 Name 4.[6 marks] A conductor carries a current of...
Phys 0600 Q21W20C Quiz - Ch. 21 Name 4.[6 marks] A conductor carries a current of 6.9 amps and lies perpendicular to a 3.4 T magnetic field. If the magnetic force acting on the conductor is 17 N how long is the conductor? conductor Determine the direction of the magnetic force acting on the conductor. For example, left, right into or out of page. Explain.
#2!! ituricioIl Of Held and a) East b) Up c) Down d) South 2. A proton...
#2!!
ituricioIl Of Held and a) East b) Up c) Down d) South 2. A proton moving at a speed of 3.8 x 106 m/s cuts across the lines of a magnetic field at an angle of 60 degrees. The strength of the field is 0.25 x 10-4 T. What is the magnitude of the force acting on the proton? (ap- 1.6x 10-19 C) are held in a 3. At the Fermilab accelerator, singly-charged ions with momentum 4.8 x 10-16...
P19.5. A lossless coaxial cable, of conductor radii a and b, carries a steady current of intensity I. The potential difference between the cable conductors is V. Prove that the flux of the Poynting v...
P19.5. A lossless coaxial cable, of conductor radii a and b, carries a steady current of intensity I. The potential difference between the cable conductors is V. Prove that the flux of the Poynting vector through a cross section of the cable is VI, using the known expressions for vectors E and H in the cable. Sketch the dependence of the magnitude of the Poynting vector on the distance r from the cable axis, where a <r< b. _Hint: note...
A long, straight wire of radius 10 cm carries a steady current l=10 A that is...
A long, straight wire of radius 10 cm carries a steady current l=10 A that is uniformly distributed through the cross-section of the wire. If the magnetic field inside the conductor at point Pis B=4*10-61.what is the distance of the point P from the center of the wire. p Lütfen birini seçin: O a. 1 cm O b. 2 cm O c. 3 cm O d. 10 cm
1. a.) An object carries a charge of -6.1 µC, while another carries a charge of...
1.
a.) An object carries a charge of -6.1 µC, while
another carries a charge of -2.0 µC. How many electrons
must be transferred from the first to the second object so that
both objects have the same charge?
b.) Suppose a thin conducting wire connects two conducting
spheres. A negatively charged rod is brought near one of the
spheres, the wire between them is cut, and the charged rod is taken
away. Which one of the following is true?...
Now consider two very long parallel conductors separated by a distance 3b. Conductor #1 carries current...
Now consider two very long parallel conductors separated by a distance 3b. Conductor #1 carries current / toward the top of the page, and Conductor #2 carries current 91 toward the top of the page. (Let / = 6.00 A and b = 1.00 cm, as above.) (6.) (0.99 point) What is the magnitude of the magnetic force per unit length (in N/m) on Conductor #1? (7.) 10.36 point What is the magnitude of the magnetic force per unit length...
A tubular conductor (pipe) as shown below carries a current I in the z direction. The...
A tubular conductor (pipe) as shown below carries a current I in the z direction. The inner and outer radii are given by a and b, respectively, while is length is given by L. a) Describe the procedure to obtain the magnetic field distribution (H) produced by this arrangement along the radial distance any point along p). b) Use the result of a) to evaluate the magnetic field of the conductor if a = 0.05 m, b = 0.06 m...
Now consider two very long, parallel conductors separated by a distance 3b. Conductor #1 carries current...
Now consider two very long, parallel conductors separated by a distance 3b. Conductor #1 carries current / toward the top of the page, and Conductor #2 carries current 9/ toward the top of the page. (Let / = 6.00 A and b = 1.00 cm, as above.) (6.) (0.99 point) What is the magnitude of the magnetic force per unit length (in N/m) on Conductor #1? (7.) [0.36 point] What is the magnitude of the magnetic force per unit length...
11. A conductor of length 1m carries a current of 5A in the ż direction (i.e....
11. A conductor of length 1m carries a current of 5A in the ż direction (i.e. I=5 2 A). If the field is B=2 T, the force on the conductor is: * (2 points) 10 N -10 9N -10 N -10XN 12. A conducting loop of area 25 cm’ and resistance 2 lies in the z=0 plane in a magnetic field B = 40cos10^tî mT. The induced current in the loop is: * (2 points) oCam (66, 50, 1284, 672)...
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor. (b) Determine the vector magnetic potential (A) both inside and outside the conductor from the relationship B V x A
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor....
Phys 0600 Q21W20C Quiz - Ch. 21 Name 4.[6 marks] A conductor carries a current of 6.9 amps and lies perpendicular to a 3.4 T magnetic field. If the magnetic force acting on the conductor is 17 N how long is the conductor? conductor Determine the direction of the magnetic force acting on the conductor. For example, left, right into or out of page. Explain.
#2!!
ituricioIl Of Held and a) East b) Up c) Down d) South 2. A proton moving at a speed of 3.8 x 106 m/s cuts across the lines of a magnetic field at an angle of 60 degrees. The strength of the field is 0.25 x 10-4 T. What is the magnitude of the force acting on the proton? (ap- 1.6x 10-19 C) are held in a 3. At the Fermilab accelerator, singly-charged ions with momentum 4.8 x 10-16...
P19.5. A lossless coaxial cable, of conductor radii a and b, carries a steady current of intensity I. The potential difference between the cable conductors is V. Prove that the flux of the Poynting vector through a cross section of the cable is VI, using the known expressions for vectors E and H in the cable. Sketch the dependence of the magnitude of the Poynting vector on the distance r from the cable axis, where a <r< b. _Hint: note...
A long, straight wire of radius 10 cm carries a steady current l=10 A that is uniformly distributed through the cross-section of the wire. If the magnetic field inside the conductor at point Pis B=4*10-61.what is the distance of the point P from the center of the wire. p Lütfen birini seçin: O a. 1 cm O b. 2 cm O c. 3 cm O d. 10 cm
1.
a.) An object carries a charge of -6.1 µC, while
another carries a charge of -2.0 µC. How many electrons
must be transferred from the first to the second object so that
both objects have the same charge?
b.) Suppose a thin conducting wire connects two conducting
spheres. A negatively charged rod is brought near one of the
spheres, the wire between them is cut, and the charged rod is taken
away. Which one of the following is true?...
Now consider two very long parallel conductors separated by a distance 3b. Conductor #1 carries current / toward the top of the page, and Conductor #2 carries current 91 toward the top of the page. (Let / = 6.00 A and b = 1.00 cm, as above.) (6.) (0.99 point) What is the magnitude of the magnetic force per unit length (in N/m) on Conductor #1? (7.) 10.36 point What is the magnitude of the magnetic force per unit length...
A tubular conductor (pipe) as shown below carries a current I in the z direction. The inner and outer radii are given by a and b, respectively, while is length is given by L. a) Describe the procedure to obtain the magnetic field distribution (H) produced by this arrangement along the radial distance any point along p). b) Use the result of a) to evaluate the magnetic field of the conductor if a = 0.05 m, b = 0.06 m...
Now consider two very long, parallel conductors separated by a distance 3b. Conductor #1 carries current / toward the top of the page, and Conductor #2 carries current 9/ toward the top of the page. (Let / = 6.00 A and b = 1.00 cm, as above.) (6.) (0.99 point) What is the magnitude of the magnetic force per unit length (in N/m) on Conductor #1? (7.) [0.36 point] What is the magnitude of the magnetic force per unit length...
11. A conductor of length 1m carries a current of 5A in the ż direction (i.e. I=5 2 A). If the field is B=2 T, the force on the conductor is: * (2 points) 10 N -10 9N -10 N -10XN 12. A conducting loop of area 25 cm’ and resistance 2 lies in the z=0 plane in a magnetic field B = 40cos10^tî mT. The induced current in the loop is: * (2 points) oCam (66, 50, 1284, 672)...
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