A resistor is constructed of a carbon rod that has a uniform cross-sectional area of 4.90...
A wire is 0.79 m long and 0.77 mm2 in cross-sectional area. It carries a current of 4.1 A when a 2.0 V potential difference is applied between its ends. Calculate the conductivity ? of the material of which this wire is made.
A metal rod of length 76 cm and mass 1.79 kg has a uniform cross-sectional area of 7.7 cm2. Due to a nonuniform density, the center of mass of the rod is 22.2 cm from the right end of the rod. The rod is suspended in a horizontal position in water by ropes attached to both ends (the figure). (a) What is the tension in the rope closer to the center of mass? (b) What is the tension in the...
A wire is 0.79 m long and 0.82 mm2 in cross-sectional area. It carries a current of 3.8 A when a 2.4 V potential difference is applied between its ends. Calculate the conductivity σ of the material of which this wire is made.
A wire is 1.3 m long and 0.93 mm2 in cross-sectional area. It carries a current of 5.8 A when a 1.8 V potential difference is applied between its ends. Calculate the conductivity σ of the material of which this wire is made.
A cylindrical cable with a resistivity of 1.6x10-8 Ω·m and cross sectional area of 3x10-5 m^2 carries a current of 100 A. There is a potential difference of 0.2 V applied across the entire cable. a. What is the resistance of the cable? b. What is the length of the cable? c. How many coulombs of charge pass through any cross section across the cable’s width during a 5 s time interval?
OsuniPhys1 26P071 An aluminum rod that is 3.04 mm long with a cross-sectional area of 1.28 mm2 is used for a digital thermometer. (a) what is the resistance (in Ω) at room temperature? (Assume room temperature is 20.0°C) (b) What is the resistance (in 0) at body temperature? (Assume body temperature is 37.00℃.)
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A wire Is 1.1 m long and 1.1 mm^2 in cross-sectional area. It carries a current of 5.6 A when a 2.1 V potential difference Is applied between its ends. Calculate the conductivity o of the material of which this wire Is made.
A block in the shape of a rectangular solid has a cross-sectional area of 4.58 cm2 across its width, a front-to-rear length of 21.7 cm, and a resistance of 1370 Ω. The block's material contains 5.69 × 1022 conduction electrons/m3. A potential difference of 39.7 V is maintained between its front and rear faces. (a) What is the current in the block? (b) If the current density is uniform, what is its magnitude? What are (c) the drift velocity of...
A brass rod with a length of 1.50 m and a cross-sectional area of 2.50 cm2 is fastened end to end to a nickel rod with length L and cross-sectional area 0.880 cm2 . The compound rod is subjected to equal and opposite pulls of magnitude 3.46×104 N at its ends. a.Find the length L of the nickel rod if the elongations of the two rods are equal. b.What is the stress in the brass rod? c.What is the stress...
A copper wire of cross-sectional area of 8.2x10^-7 m^2 has a resistance of 1.11 Ω. a). How long is the wire? b). If a potential of 12.0 V is applied across the ends of the wire, what current will flow through the wire? c). How much electrical power is supplied to the spool? d). How many electrons (N) pass through this wire in 1.00 minutes?