A copper cable is designed to carry a current of 250A with a power loss of 2.20 W/m. What...
A copper cable is designed to carry a current of 250A with a power loss of 2.20 W/m. What is the required radius of this cable?
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A copper cable is designed to carry a current
of 250A with a power loss of 2.20 W/m. What...
A cylindrical cable with 2.20 x 10-8 m resistivity carries a current of 1400 A. There...
A cylindrical cable with 2.20 x 10-8 m resistivity carries a current of 1400 A. There is a potential difference of 2.3 x 10-2 V between two points on the cable that are 0.31 m apart. What is the radius of the cable?
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference...
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 28 6.95 x 10^28th power . a) Find the radius of the cable b) Find the average current density in the cable c) What is the drift velocity of the current ? Could this be...
Copper and aluminum are being considered for a high-voltagetransmission line that must carry a current of...
Copper and aluminum are being considered for a high-voltagetransmission line that must carry a current of 50.0 A. The resistance per unit length is to be0.200 /km. The densities of copper and aluminum are 8960 and 2700kg/m3, respectively. Compute: (a) the magnitude J of the averagecurrent density for a copper cable 1 A/m2 (b) the mass per unit length λ for a coppercable. 2 kg/m (c) the magnitude J of the average current density for analuminum cable 3 A/m2 (d)...
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference...
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95*10^28 a) Find the radius of the cable b) Find the average current density in the cable c) What is the drift velocity of the current ?
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference...
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028. a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference...
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028. a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference...
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028 a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference...
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028. a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
(assume m = 1) A. For coaxial cable, what impedance is ideal for lowest voltage loss?...
(assume m = 1) A. For coaxial cable, what impedance is ideal for lowest voltage loss? B. For coaxial cable, what impedance is ideal for lowest power loss? C. For coaxial cable, what theoretical impedance would be the best compromise for voltage and power?
Copper and aluminum are being considered for a high-voltage transmission line that must carry a current...
Copper and aluminum are being considered for a high-voltage transmission line that must carry a current of 49.2 A. The resistance per unit length is to be 0.172 Ω/km. The densities of copper and aluminum are 8960 and 2600 kg/m3, respectively. Compute (a) the magnitude J of the current density and (b) the mass per unit length λ for a copper cable and (c) J and (d) λ for an aluminum cable.
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028. a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028. a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028 a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
4) A cylindrical copper cable carries a current of 1200 A. There is a potential difference of 16 mv between the two points on the cable that are 24 cm apart. The number of carriers per unit volume of the current in the wire is 6.95X1028. a) Find the radius of the cable (4 pts) b) Find the average current density in the cable (5 pts) c) What is the drift velocity of the current ? (5 pts)
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