A condenser of capacity 1 µF is charged to a potential 10 volt. Calculate the energy stored in the condenser.
Q: A surface discharges into air when the potential gradient is 3 x 10* volt/cm. Find the potential to…
A: To find-Potential (V)=?Given-Potential gradient (E)=3×106 volt/mr=3 m
Q: (5.70x10^2) V is applied to a (7.128x10^3) pF capacitor. How much energy is stored in units of…
A: Given, Voltage across capacitor (V)= 5.70×102 V Capacitance of capacitor (C)= 7.128×103 pF We want…
Q: How far from a 7.00 µC point charge will the potential be 140 V? ______ m At what distance will…
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Q: The work needed to carry a 5 C charge from point A to point B is 3 J. Calculate the potential…
A: Given:- The charge must be carry from point A to B The work (W)= 3 J charge =5 C Find:- The…
Q: To separate a 0.35 C charge from another charge, 25 J of work is done. What is the voltage of the…
A: Charge , Q = 0.35 C Work done , W = 25 J To find = voltage
Q: A parallel plate capacitor with a plate area of 19.0 cm2 and air in the space between the plates,…
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Q: A charge of 1.743 mC traverses a potential difference 48.420 V. If the charge has mass 7.341 g, and…
A: Here Charge = q = 1.743 mC Potential difference = ∆V = 48.420 V Mass of charge = m = 7.341 gInitial…
Q: To separate a 0.33 C charge from another charge, 26 J of work is done. What is the voltage of the…
A: Given , charge (q) = 0.33C work done (W)= 26J voltage (v) = ?
Q: What is the energy (in J) stored in the 33.0 µF capacitor of a heart defibrillator charged to 7.20 ✕…
A: Given The capacitance of capacitor is C = 33 µF = 33×10-6 F. The voltage of the capacitor is V =…
Q: Using the equation U=E/V you got 1*10-7J/m3 as your energy density answer. Can you verify this…
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Q: Calculate the capacity of a condenser charged to a potential of 300 V, if the energy stored in the…
A: We need to find-Capacitance of a condenser (C)=?Given that-Potential of a condenser (V)=300 VEnergy…
Q: a parallel plate capacitor with a plate area of 18 cm^2 and air in the space between the plates…
A: Given: The surface area of the plate is 18 cm2 = 0.0018 m2. { 1…
Q: To separate a 0.28 C charge from another charge, 26 J of work is done. What is the voltage of the…
A: Work is said to be done when a charge is brought from infinity (a point with zero potential), to a…
Q: In the figure below, assuming C=74.4µC and Vp-Va= 14.7V, find the total energy stored in the system…
A: C = 74.4 μF = 74.4 × 10- 6 F Vb - Va = ΔV = 14.7 Volts
Q: A condenser is charged to a potential of 1000 volt. If the capacity of the condenser is uF,…
A: To find-Energy stored (W)=?Given data-C=6 μFC=6×10-6 FV=100 V
Q: What charge (in mC) is stored in a 150 µF capacitor when 190 V is applied to it?
A: Voltage is Capacitance is Note:Find:Charge stored by the capacitor.
Q: A condenser of capacity 80 µF is charged to a potential of 100 V. Calculate energy stored in it.
A: To Find: Energy stored in condenser (W) Given: C=80 μF =80×10-6 FV=100 V
Q: Calculate the capacity of a condenser charged to a potential of 300 V, if the energy stored in the…
A:
Q: A parallel-plate capacitor having plate area 25cm² and separation 1.00mm is connected to a battery…
A: Given, The area of the plates, A=25cm2A=25×10-4m2 The separation between plates, d=1mmd=1×10-3m The…
Q: To recharge a 12 V battery, a battery charger must move 3.2 ✕ 105 C of charge from the negative…
A: Potential difference V = 12 V Charge q = 3.2×105 C
Q: How much work must be done to charge a 148.0 µF capacitor to 152.0 V?
A: The work done is given by,
Q: A 10µF capacitors is connected to a 100 V battery. What is electrostatic energy stored ?
A: The main work of capacitor is to store energy, we call it as electrostatic energy.Now we will use…
Q: A research-level Van de Graaff generator has a 1.95 m diameter metal sphere with a charge of 5.25 mC…
A: Let d be the diameter of the metal sphere, r be its radius, Q be the charge on the sphere. The…
Q: How much energy is stored in a 5uF capacitor if it has a potential difference of 2V? 10 uV O 10 uc O…
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Q: : An air condenser having capacity of 50 is charged to a potential of 200 V. If the area of each…
A: We need to compute-Energy per unit volume (U)=?The data given as-Capacity (C)=50 μF=50×10-6…
Q: At what electric potential is 150 Coulombs of charge that has an electric potential energy of 30,000…
A: Solution: Given that Q = 150 C PE = 30000 J
Q: During a lightning flash, -6 C of charge is transferred across a potential difference of about 10^7…
A: Given in quesion - Charge(Q) = -6 Coulomb Poential difference(V) =…
Q: Calculate the capacity of a condens charged to a potential of 1000 V, if the energ stored in the…
A: Given Data The potential difference of a condenser is:V=1000V The energy stored in the condenser…
Q: A particle of charge 45 mC moves through a potential difference of 200 kV. How much work has been…
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Q: A parallel plate condenser has circular plates each of diameter 20 cm separated by a distance of 2…
A: Given diameter d=20 cm so radius r=d/2=10cm=0.10m So area A=πr2 =3.14×0.102=0.0314m2 separation…
Q: How much work would it take to place a +2.0 C charge at a position in space that has an electric…
A: Charge (q)=+2.0 C Electric Potential (V)=150 V
Q: A parallel-connected bank of 3000, 5.0μF capacitors is used to store energy. What does it cost to…
A:
Q: Detemine the euvalent capacitance (in units of nf) of the combination shown when C=89 rf 2C 2C 2C 2C…
A: The equivalent capacitance of the right upper limb is determined as, 1C1=12C+12CC1=C
Q: Calculate the potential difference in units of V, required to charge a 751 uF capacitor with a…
A: Capacitance of capacitor Co = 751 μF = 751 × 10- 6 F Charge on capacitor is Q = 0.1 C
Q: How much charge must it deliver to do 150 J of work from a battery if the potential difference…
A: Answer Given Work W = 150 J Potential difference V = 9V We have to find how much charge is…
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