Part H Find the location between z = 0 and z=1.00m where the electric potential passes through zero. Submit Request Answer Part I 15] ΑΣΦ H || ? Find the location in the region z > 1.00m where the electric potential passes through zero. 15] ΑΣΦ Submit Request Answer m ? m
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![Part H
Find the location between z = 0 and z=1.00m where the electric potential passes through zero.
I=
Submit
Part I
I=
IVE ΑΣΦ
Submit
Request Answer
Find the location in the region z > 1.00m where the electric potential passes through zero.
G] ΑΣΦ
?
Request Answer
m
?
m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fce0f29cc-98be-45bb-9fb8-5b9efd247a01%2F4d3902b3-ad72-421c-9022-896c4b4e115d%2Fx6f9g5_processed.png&w=3840&q=75)
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- V(V) 10 II III I 5 0. 4 6 . 8 x(cm) -5- -104 I II III 4 x(cm) A B В С D In the figure above, the top panel of graph shows the potential V as a function of position x in three regions I, II, and III. Accordingly, four parallel plates, A through D, can be setup to realized the distribution of potential, as schematically drawn in the bottom panel of the figure. The unit of the distance is cm, and the unit of potential is V. What direction does the electric field point in region I? Right O No field O Left 2.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)A uniform electric field with a magnitude of 2300 N/C points in the negative z direction, as shown in the figure (Figure 1). You may want to review (Pages 696 - 700). Part A What is the difference in electric potential, AV = VB - VA between points A and B? Express your answer using one significant figure. VE] ΑΣΦ AV= Submit Part B AV= Submit What is the difference in electric potential, AV = VB - Vc. between points B and C? Express your answer using two significant figures. Part C Request Answer AV= Submit VE] ΑΣΦ Request Answer w Request Answer Bw What is the difference in electric potential, AV = Vc - VA between points C and A? Express your answer using two significant figures. VE ΑΣΦ ? Sw ?
- C1= 3 uf, C2=6 uf, C3=5uf, C4=4 uf A) Find the total energy (in mJ) stored in the system B) find the energy (in mJ) stored by each capacitorIn (Figure 1), 91 = +2.5 nC and 92 = -2.0 nC, and the side length of the square is 0.15 m. Figure 91 92 Part A What is the electric potential at point A? Express your answer to two significant figures and include appropriate units. Value Submit на Part B S μÅ Value Request Answer C Units What is the electric potential at point B? Express your answer to two significant figures and include appropriate units. Units P Pearson ? ?Problem 18: The electric potential in a certain region is given by the equation V(x,y,z) = 3αx2y3 - 2γx2y4z2 where the potential is in volts when the positions are given in meters. Part (d) The constants in this equation are α = 5.2 V/m5 and γ = 1.39 V/m8. Using this information, calculate the magnitude of the electric field at the point (x1,y1,z1) = (-5.0, 2.0, 1.5) m in units of newtons per coulomb.
- The electric potential in a region of space is V = Part A E= Submit What is the strength of the electric field at (x, y) = (2.7 m, 2.8 m)? Express your answer using two significant figures. Part B 0= 2 of 15 || ΑΣΦ 4 → C Request Answer 15. ΑΣΦ Submit (300 V-m) √x² + y² 2 Request Answer What is the direction of the electric field at (x, y) = (2.7 m, 2.8 m)? Give the direction as an angle ccw from the positive x-axis. Express your answer in degrees using two significant figures. BALAD where and y are in meters. ? V/m ccw from the positive z-axisA 5.15 nF parallel-plate capacitor contains 26.0 µJ of stored energy. ▼ Part A What is the potential difference across the capacitor? Express your answer in volts. V = Submit Part B V = ΑΣΦ Submit Request Answer By how many volts would you have to increase this potential difference in order for the capacitor to store 52.0 μJ of potential energy? Express your answer in volts. VG ΑΣΦ ? Request Answer ?In the figure (Figure 1), let C1=1.00μF, C2=2.00μF, C3=4.00μF, and V=36.0V. What is the potential difference across each capacitor?Enter your answers numerically separated by commas. V1,V2,V3=?
- A capacitor is powered by a voltage of 1.5 V. The plates of this capacitor are 2.0 mm apart and have an area of 360 mm². Determine approximately (a) the capacitance of the capacitor in pF; (b) the total energy stored by the capacitor in pJ. Use ε0 = 8.85x10⁻¹² C²/Nm².A parallel-plate vacuum capacitor has 9.38 J of energy stored in it. The separation between the plates is 2.60 mm. ▼ Part A If the separation is decreased to 1.45 mm, what is the energy now stored if the capacitor was disconnected from the potential source before the separation of the plates was changed? Express your answer in joules. U= Submit Part B IVE| ΑΣΦ U = Request Answer IVE| ΑΣΦ 15] Submit Ò If the separation is decreased to 1.45 mm, what is the energy now stored if the capacitor remained connected to the potential source while the separation of the plates was changed? Express your answer in joules. Request Answer ? J ? Review | Constants JOn average, a bolt of lightning provides 500 megajoules [MJ of energy. Doctor Emmitt Brown's flux capacitor needs 1.21 gigawatts GW| of power to his DeLorean DMC-12 time machine. How long in units of seconds s must the lightning bolt be in contact with the car to completely charge the flux capacitor? Assume 100% of the energy from the lightning captured by the capacitor. >> Enter the numerical value in this box - do not include any units in this box >>