What is the electric potential at the point shown in the figure? 1.5 cm -1 nC 1.5 cm O 250 V 500 V O -250 V O-500 V O OV 2 nC 3 cm 3 cm -1 nC
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Q: a be ㅏ C5 ㅔ = C2 C4 ㅏ
A: C1 = C5 = 8.5 μF C2 = C3 = C4 = 4.7 μF
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A: Given: Charge is 30 nC Radius is 30 cm or 0.3 m
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A: Given values :C1 = 7.4μF C2 = 14.7μF V1 = 17 V V2 = 3.5 V
Q: The drawing shows the electric potential as a function of distance along the x axis. Determine the…
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Q: The drawing shows the electric potential as a function of dis- tance along the x axis. Determine the…
A: Electrostatic.
Q: A paper-filled capacitor is charged to a potential difference of Vo = 2.9 V. The dielectric constant…
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Q: A 130 pF capacitor is charged to a potential difference of 50 V, and the charging battery is…
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Given a charge configuration and we want to find the potential at a given point shown in figure.
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- The electric field in a region of space is given by the function E(x) = -30x + 2, where x is in meters and E is in Volts/meter. What is the electric potential at x = 2 meters? a. -58 V b. +58 V c. -60 V d. +60 V e. -30 V13An energy storage system is being designed using a number of concrete blocks and electrically driven carriages, each carriage has a mass 10 000 kg, which can be raised to a certain height using electric motor driven trains using excess power from a combined solar-wind farm. Power is recovered using the same motors and releasing the concrete blocks and carriages. If the excess energy on one day is 2 GJ, the maximum height is 200 m and the efficiency is 100%, how many carriages are needed to store this energy (assume g = 10 m/s²). 4 B C O E 5 20 50 100 200
- What is the potential energy of an electron at point B in the figure? What is the potential energy of an electron at point C in the figure? What is the potential difference ΔVAB? What is the potential difference ΔVBC?Calculate the magnitude of the potential difference between points a and b in the figure if R₁=2.262, R₂=4.46£,and R3=10.02Q. 12.0 V R₁ R₂ 4.00 V www R3A capacitor consists of two 6.6-cm-diameter circular plates separated by 1.0 mm. The plates are charged to 160 V, then the battery is removed. How much energy is stored in the capacitor? How much work must be done to pull the plates apart to where the distance between them is 2.0mm?
- The electric potential difference AV, also called voltage, is expressed in terms of the electric field as follows AV = Edr where, a is the initial position and b is the final position. If an electric field in a region in space is defined as E = Br² where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R? 1 AV = Br? AV = -Br 1 AV = BR3 AV = O AV = (1– BR²)aR 1 AV = Br 1 AV = BR3 Ο ΔV- (1-β)αR3 O AV = - BR3 ΔV= -글(1-B)The electric potential increases from 99 V to 700 V from the bottom plate to the top plate of a parallel-plate capacitor. What is the magnitude of the change in potential energy of a -2 10-4 C charge that is moved from the bottom plate to the top plate? ?JA very large sheet of insulating material has had an excess of electrons placed on it producing a surface charge density of -3.00nC/m². As the distance from the sheet increases, does the potential increase or decrease? What is the spacing between surfaces that differ by 1.00V? a. increases, 0.006m/V O b. decreases, 0.006m/V increases, 0.003m/V c. d. decreases, 0.003m/V
- How much energy is stored in a 56 pF capacitor that has been charged to 12 V? Convert your answer to eV. O 2.5 x 10^10 eV O 4.6 x 10^8 eV 3.8 x 10^9 eV 6.1 x 10^10 eV 8.3 x 10^8 eVA 2.00 nC charge is placed on the x-axis at x = -3.00 cm, another 2.00 nC charge is placed on the x-axis at x = 3.00 cm, and a third 2.00 nC charge is placed on the y-axis at y = 3.00 cm. What is the potential at the origin? %3D 2700 V 3600 V 5400 V O 1800 V O 108 VIn the figure, the charge q=0.880×10^−9C. A) Find the electric potential at x=0.450m Express your answer using appropriate units. B) Find the value of x between 0 and 1.00 m where the electric potential is zero. Express your answer using appropriate units.