Find expressions for flux and current at point P2
Q: During 10 seconds of use, 260 C of charge flow through a microwave oven. Compute the size of the…
A:
Q: radius a is placed An infinitely long cylindrical conductor a along the z-axis. Assume the current…
A:
Q: Find electric currents in all the branches of the electric scheme in the figure. E1 = 2.5 V, E2 =…
A:
Q: Answer this problem in Physics. Answer it in this manner: data given, equation used,…
A: Step 1:Resistance is 12ΩCurrent is 4AStep 2:The formula for the voltage will be:V=IRWhere I is the…
Q: A circular steel wire 1.50 m long must stretch no more than 0.25 cm when a tensile force of 750 N is…
A: The length of the steel wire is 1.50 m. The length by which is stretched is 0.25 cm. The tensile…
Q: A closed curve encircles several conductors. The line integral around this curve Express your answer…
A: According to Ampere's law, ∮B→·dL→=µ0Iwhere µ0=1.256×10-6 m kg s-2 A-2 So,…
Q: 4 + R +++ charged conductor E or V for r≤k and V > R Uniformly charged insulator E and V for VSR and…
A:
Q: Bars AC and DG are straight and parallel to the x and y axes, respectively. BE is a cable whose…
A:
Q: Compute the voltage drop along a 33 m length of household no. 14 copper wire (used in 15-A…
A:
Q: 10 E32 V 120 (1)2A RL Figure 1
A: Given data:Resistances of 4Ω,12Ω,1ΩCurrennt source 2AVolatge source 32V To find the value of…
Q: Three identical spheres are thrown from the same height above the ground Sphere X is thrown…
A: The initial vertical velocities of ball X and Z are same before collision before collision v' = v+…
Q: In the schematic below two batteries are in series and drive current through the circuit as shown.…
A: Given data: ΔV1 = 2 V ΔV2 = 1.1 V R = 69 Ω Two batteries of 3.0 V and 4.5 V connected in series
Q: B5. In the circuit below, V = 10 V,R= 50 2, R = 32 N, and R, = 20 2. The current through R, is 0.15…
A:
Q: Two copper wires A and B have the same length and are connected across the same battery. If Rg= 4RA,…
A:
Q: A spherically spreading EM wave comes from a 1700 W source. Part A At a distance of 4.7 m, what is…
A:
Q: Figure 1 shows a cylindrical shell of inner radius a, outer radius b and height h. y a b Figure 1:…
A:
Q: A cylindrical conductor has resistance R0=40 ohms. If we decrease the radius of the conductor by a…
A: Given: The resistance of the conductor is 40 Ω. The voltage of the battery is 12 V. The internal…
Q: Write down an equation that relates the currents I1, I2, and I3. Your answer should be in terms of…
A:
Q: R, R; 1, R, I Consider the circuit shown above. a) | Use Kirchhoff's Voltage Law and the given…
A: Electric current
Q: The figure below shows a voltage divider, a circult used to obtain a desired voltage AV out from a…
A: The voltage across R2 is given as Vout=Vinp×R2R1+R2…
Q: Two different wires, of the same cross-sectional area, are connected in series as part of a circuit.…
A: Required : Part (a) If the electric field in wire 1 is E1, and the electric field through wire 2 is…
Q: A 0.870-mm-diameter silver wire carries a 30.0 mA current. F ▼ Part A What is the electric field in…
A: Given data: The diameter d=0.870 mm=0.870×10-3 m The current I=30.0 mA=30×10-3 A
Q: A cylindrical, non-ohmic, uniform conductor is placed in a uniform electric field that points from…
A: J= sigma (E)
Q: Describe the physical quantity electrical resistance of a wire made from a given material, length L,…
A: Answer:- Electrical Resistance (R) of a wire depends upon the length (L) and area of cross section…
Find expressions for flux and current at point P2
Step by step
Solved in 2 steps
- If C1=12 µF and C2 = 4 µF and the battery voltage is 24 V, calculate the charge supplied by the batteryAn electric current transports 360. µC of charge in 224. milliseconds. Calculate the size of the electric current. Be sure your answer has the correct unit symbol and 3 significant digits.In the circuit below, V1 = 11, V2 = 2, R1 = 8, R2 = 3, and R3 = 6. Find 1, 12, and 13. R3 R1 R2 3.
- Find the slope for each I - V curves in Plot 1. Determine the value of resistances R1 and R2 by using the slope of the I - V curves. Show your calculations. Supply Voltage (Vs) Voltage across R₁__(V₁) Voltage across R₂ (V₂) Current through R₁_(l₁) Current through R₂_(1₂) Computed value of I₁R₁ Computed value of I2R2 2.0 V 1.375v 0.623v 0.6147mA 0.6147mA 1.331v 0.603v Table 4 4.0 V 2.7529v 1.1468v 1.268mA 1.268mA 2.749v 1.245v 6.0 V 4.127v 1.870v 1.901mA 1.901mA 4.121v 1.867v 8.0 V 5.503v 2.493v 2.536mA 2.536mA 5.498 v 2.490v 10.0 V 6.878 3.118v 3.171mA 3.171mA 6.874v 3.114v Current 3.5 3 in 2.5 2 1.5 1 0.5 0 0 2 Plot 1: I-V curves for resistors R1 and R2 using the data from Table 4 4 Voltage 6 8 Current 3.5 3 2.5 2 1.5 1 0.5 0 0 0.5 1 1.5 Voltage 2 2.5 3 3.5The resistance R to the flow of blood varies directly with a blood vessels length L and inversely with the 4th power of its radius r. If R = 144 when L = 24 and r = .5 find an equation relating R, l, and r. Find R if L = 6 and r = .25.Please asap
- A car battery is rated at 1,020 AH (i.e., amps x hours). Calculate the number of coulombs this is equivalent to. Your Answer:Q1) Ohm's Law (in electricity) states that the current (I) is proportional to the applied voltage (V). The constant of proportionality is the resistance (R). The resulting equation is: V = IR. This equation is re-arranged to: I = (1/R) V. Since this is a linear equation, the plot between V (on the x-axis) and I (on the y-axis) should be a straight line, with the slope being 1/R. In an experiment, the following data has been obtained for current for different values of the voltage. Voltage 1 2 3 Current 0.8 2.5 2.9 4.2 5.6 a) Determine the equation for the best-fit line from this data, by using the method of least squares. Equation: Plot the data points, and the straight line representing the equation that you found in part b) 'a'. (Note: the best-fit line will not pass through all the data points) c) Use the slope of the line to find the resistance. Resistance: LO