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A conductor suspended by two flexible wires (as shown below) has a mass per unit length...
A conductor suspended by two flexible wires as shown in the figure below has a mass...
A conductor suspended by two flexible wires as shown in the figure below has a mass per unit length of 0.0396 kg/m. A rectangular loop forms a circuit, and is suspended from a horizontal surface by two wires that attach to the top right and left corners of the loop. The bottom of the loop is immersed in a magnetic field vector Bin, which points into the page. The top of the loop contains a power source, the positive terminal...
A conducting bar, having a mass per unit length of 0.0400 kg/m, is suspended by two...
A conducting bar, having a mass per unit length of 0.0400 kg/m, is suspended by two flexible conductive wires of negligible mass, hanging from the ceiling (insulated) as shown below, What is the magnitude and direction of the current, I, that must exist in the conductor for the tension in the supporting wires to be zero when the magnetic field is 3.60 T into the page? If the resistance of the conductor is 0.200 ohm, what is the emf in...
4) A conductor hangs as shown in the figure with the help of two flexible wires....
4)
A conductor hangs as shown in the figure with the help of two
flexible wires. The mass amount (mass density) of the conductor per
unit length is 0.0100 kg / m. The magnitude of the magnetic field
towards the page is 3.50 T. How much should the current flow
through the conductor be so that the strain on the flexible wires
is zero? Determine the direction of the current?
H X x X X X X X X x...
A 31.0 g wire of length L= 0.62 m suspended by a pair of flexible leads...
A 31.0 g wire of length L= 0.62 m suspended by a pair of
flexible leads in uniform magnetic field of magnitude 0.5 T. What
are the magnitude and direction of the current required to move the
tension in supporting leads?
As shown in the figure, a conducting rod with a linear mass density of 0.0380 kg/m...
As shown in the figure, a conducting rod with a
linear mass density of 0.0380 kg/m is
suspended by two flexible wires of negligible mass in a uniform
magnetic field directed out of the page. A
power supply is used to send a current through the rod such that
the tension in the support wires is zero.
(a) If the magnitude of the magnetic field
is 3.64 T, determine the current in the conducting rod.
A
#11 6. B =- Val-3-6) 7. B = 726-6) 8. B- V20+k) 9. B =-; 10....
#11
6. B =- Val-3-6) 7. B = 726-6) 8. B- V20+k) 9. B =-; 10. B = - 007 (part 2 of 2) 10.0 points For given values of Ê and B, there exists a critical speed such that the electrons may move along the + direction undeflected. if the speed of the electron is less than the criti- cal speed, along which direction will the elec- trons be deflected? 1. c = 120+B) 2. = Answer in units...
#10 Answer in units of T. 6. B = 12-3-k) 7. B = 120-k) 8. B...
#10
Answer in units of T. 6. B = 12-3-k) 7. B = 120-k) 8. B = 120+k) 9. B =-; 10. B =- 007 (part 2 of 2) 10.0 points For given values of È and B, there exists a critical speed such that the electrons may move along the +a direction undeflected. If the speed of the electron is less than the criti- cal speed, along which direction will the elec trons be deflected? 1. = 30+) 009...
#8,9 - A) 1 1 6.B=1 = (-)- V2 7. B = 720-2) 8. B =...
#8,9
- A) 1 1 6.B=1 = (-)- V2 7. B = 720-2) 8. B = 0+k) 9. B = -1 10. B = - 007 (part 2 of 2) 10.0 points For given values of Ē and B, there exists a critical speed such that the electrons may move along the +direction undeflected. If the speed of the electron is less than the criti- cal speed, along which direction will the elec- trons be deflected? Answer in units of...
A horizontal length of current-carrying wire is suspended from two identical flexible leads that are under...
A horizontal length of
current-carrying wire is suspended from two identical flexible
leads that are under tension due to the weight of the wire. The
wire is oriented at right angles to a uniform magnetic field that
has a magnitude of 4 T and is directed out of the screen of the
figure. The length L of the wire is 5 cm and its mass m is 10 g.
What current will produce a magnetic force on the wire that...
A wire with a linear mass density of 1.17 g/cm moves at a constant speed on...
A wire with a linear mass density of 1.17 g/cm moves at a constant speed on a horizontal surface and the coefficient of kinetic friction between the wire and the surface is 0.250. If the wire carries a current of 1.39 A westward and moves horizontally to the south, determine the magnitude and direction of the smallest magnetic field that can accomplish this. magnitude direction ---Select- As shown in the figure, a conducting rod with a linear mass density of...
A conducting bar, having a mass per unit length of 0.0400 kg/m, is suspended by two flexible conductive wires of negligible mass, hanging from the ceiling (insulated) as shown below, What is the magnitude and direction of the current, I, that must exist in the conductor for the tension in the supporting wires to be zero when the magnetic field is 3.60 T into the page? If the resistance of the conductor is 0.200 ohm, what is the emf in...
4)
A conductor hangs as shown in the figure with the help of two
flexible wires. The mass amount (mass density) of the conductor per
unit length is 0.0100 kg / m. The magnitude of the magnetic field
towards the page is 3.50 T. How much should the current flow
through the conductor be so that the strain on the flexible wires
is zero? Determine the direction of the current?
H X x X X X X X X x...
A 31.0 g wire of length L= 0.62 m suspended by a pair of
flexible leads in uniform magnetic field of magnitude 0.5 T. What
are the magnitude and direction of the current required to move the
tension in supporting leads?
As shown in the figure, a conducting rod with a
linear mass density of 0.0380 kg/m is
suspended by two flexible wires of negligible mass in a uniform
magnetic field directed out of the page. A
power supply is used to send a current through the rod such that
the tension in the support wires is zero.
(a) If the magnitude of the magnetic field
is 3.64 T, determine the current in the conducting rod.
A
#11
6. B =- Val-3-6) 7. B = 726-6) 8. B- V20+k) 9. B =-; 10. B = - 007 (part 2 of 2) 10.0 points For given values of Ê and B, there exists a critical speed such that the electrons may move along the + direction undeflected. if the speed of the electron is less than the criti- cal speed, along which direction will the elec- trons be deflected? 1. c = 120+B) 2. = Answer in units...
#10
Answer in units of T. 6. B = 12-3-k) 7. B = 120-k) 8. B = 120+k) 9. B =-; 10. B =- 007 (part 2 of 2) 10.0 points For given values of È and B, there exists a critical speed such that the electrons may move along the +a direction undeflected. If the speed of the electron is less than the criti- cal speed, along which direction will the elec trons be deflected? 1. = 30+) 009...
#8,9
- A) 1 1 6.B=1 = (-)- V2 7. B = 720-2) 8. B = 0+k) 9. B = -1 10. B = - 007 (part 2 of 2) 10.0 points For given values of Ē and B, there exists a critical speed such that the electrons may move along the +direction undeflected. If the speed of the electron is less than the criti- cal speed, along which direction will the elec- trons be deflected? Answer in units of...
A horizontal length of
current-carrying wire is suspended from two identical flexible
leads that are under tension due to the weight of the wire. The
wire is oriented at right angles to a uniform magnetic field that
has a magnitude of 4 T and is directed out of the screen of the
figure. The length L of the wire is 5 cm and its mass m is 10 g.
What current will produce a magnetic force on the wire that...
A wire with a linear mass density of 1.17 g/cm moves at a constant speed on a horizontal surface and the coefficient of kinetic friction between the wire and the surface is 0.250. If the wire carries a current of 1.39 A westward and moves horizontally to the south, determine the magnitude and direction of the smallest magnetic field that can accomplish this. magnitude direction ---Select- As shown in the figure, a conducting rod with a linear mass density of...
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