h1-2. [E]The total electric flux through a closed spherical (diameter o 2.0 N m2/C. Determine the net charge within the sphere. one: - 9.0 pC .18 pC 44 pC
Q: A uniform electric field of magnitude 6.5 N/CN/C passes through a circle of radius 13 cmcm . What…
A: Given : Electric field=E=6.5 N/C Radius=r=13 cm=0.13 m
Q: 20m Fig3 1. In Figure 3, the uniform electric field is nonzero only as indicated in the region space…
A: Given: We have to find deflection of the charged particle as it leaves the electric field region.
Q: Compare the electric flux in a cubical surface of a side 10cm and spherical surface of radius 10 cm,…
A: the
Q: Question 7 The total electric flux through a closed cylindrical surface is equal to (-18 N.m*2/C).…
A: Solution: Given that flux = -18 Nm2/C to find the net charge
Q: 3. The electric field due to a static electric charge is 3 000 N/C and passes through a surface area…
A: Given that The electric field (E) = 3000N/C surface Area (A)…
Q: 15.8 An infinitely long cylindrical conductor'has radius R and uniform surface charge density o. a)…
A: The surface charge density for a length L of the cylinder with radius R will be σ=Q2πRL where Q is…
Q: QUESTION 3 Suppose three charges: q1 = 4.00 nC, q2 = - 4.00 nC, q3 =2.40 nC are enclosed by five…
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Q: what can you conclude about the relationship among the electric flux, electric field lines, and the…
A: According to Gauss' Law the electric flux through closed surface is equal to the ratio of charge…
Q: 3. How many excess electrons must be added to an isolated spherical conductor 0.100 meters in…
A: Note:- Since you have asked multiple question, we will solve the first question for you. If you want…
Q: Compare the electric flux in a cubical surface of a side 10cm and spherical surface of radius 10 cm,…
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Q: The total electric flux through a closed cylindrical (length = 1.2 m, diameter = 0.20 m) surface is…
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Q: Calculate the electric field generated by the circular element at point A if the radius BC = 30 cm,…
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Q: 8.8542x10-12 F.m-1. Find the electric flux ( in units of N.m2/C) through the surface in the figure (…
A: Given: Electric charge: Q= 47.9 [pC] =4.79×10-11 [C] Permittivity: ε0=8.8542×10-12 [F/m]…
Q: 3. A cube with edge length of 0.63 mm. If the uniform electric field in the space is 24 N/C, what is…
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Q: The total electric flux through a closed cylindrical (length = 1.2 m, diameter = 0.20 m) surface is…
A: Given Electric flux ∅=-5.0 Nm2/C Closed cyclinder length l=1.2 m diameter d=0.20 m
Q: 1. Determine the electric flux through each surface whose cross-section is shown below. 2q S2 SA S5…
A: Since you have posted a question with a multiple sub parts, we will solve first three sub - parts…
Q: when a piece of paper is held with one face perpendicular to a uniform electric field, the flux…
A: When a piece of paper is held with one face perpendicular to a uniform electric field, Electric…
Q: The inner sphere shown in the figure has a radius R=3 cm and a charge Q1386 nC. The hollow sphere…
A: Using gauss’s law : Flux = Qεo Where Q is the total amount of charge enclosed inside the sphere.…
Q: 3. A surface of area 2.6 m2 is rotated through a uniform horizontal electric field of 3.2 N/C. What…
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Q: What is the electric flux if an enclosed object has a charge of 61.95 nC? O 7000 Nm^2/C O7 Nm^2/C O…
A: The charge is Q = 61.95 × 10-9 C
Q: 2. In the figure shown, the magnitude of the uniform electric field is E = 70 kN/C . Calculate the…
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Q: 2. An insulating sphere of radius 15.0 cm has a uniform volume charge density of 450 nC/m³.…
A: Given:- r= radius of sphere= 15 cm= 0.15 m ρ= charge density= 450 nC/m3 = 4.5×10-7 C/m3 a= edge…
Q: 5. A flat circle of radius 18 cm is placed in a uniform electric field of magnitude 5.8 x 104 N/C.…
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Q: 2. Total charge Q is uniformly distributed over a conducting spherical surface (not a volume charge…
A: Total charge 'Q' is uniformly distributed over a conducting spherical surface of radius R. If the…
Q: 2. A conducting sphere of radius 0.01 m has a charge of 1.0 × 10^- 9 C deposited on it. What is the…
A: Given data: A conducting sphere Radius (r) = 0.01 m Charge (q) = 1.0×10-9 C Required: The…
Q: 22. A solid conducting sphere with radius R that carries positive charge Q is concentric with a very…
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Q: 4. A point charge q = 9.00 x 10–9C is at the centre of the cube with sides of length 0.300 m. What…
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Q: 1: A point charge of 12.0µC is placed at the center of a spherical shell of radius 22.0cm. What is…
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Q: 2. Explain the electric flux of the previous number if there is an additional external positive…
A: 2) According to the Gauss law, the electric flux via a gaussian surface can be given as, Here, Q…
Q: 4. A flat circle of radius 18 cm is placed in a uniform electric field of magnitude 5.8x10² N/C.…
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Q: 3. Find the magnitude of the electric field at a distance r from the center of an insulating…
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Q: 3. A long conducting metal cylinder of radius a is surrounded by a conducting metal thin-shelled…
A: a. From Gauss law, the formula for the electric flux through Gaussian surface is: Also, the formula…
Q: For a spherical surface with radius 0.1m and is charged by 2*10-8C, the electric field E at r = 20…
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Q: Part A The total electric flux from a cubical box 12.0 cm on a side is 1590 N-m? /C. What charge is…
A: Given Flux from the cube = 1590 Nm2/C
Q: 1-Calculate The Electric Flux through a sphere of radius 1.00m and bearing a charge of +1.00µC at…
A: The electric flux can be given by ϕ=qε0
Q: 3. A solid conducting sphere of radius a, has a net charge Q as shown in the figure below. Using…
A: Initially note that the charge dispersion on both the sphere and the shell are distinguished by…
Q: What is the electric flux for the following sets of variables? E= 8.2 x 1013…
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Q: Question 4 What is the electric flux density (in µC/m2) at a point (6, 4, - 5) caused by a uniform…
A: uniform surface charge density σ = 60μC/m2 In this problem, find the electric flux density…
Q: A solid conducting cylinder, which has a charge Q, -77Q and radius ro- 2.5R is placed inside a very…
A: Since ra<rb <r, so, this point lies outside the solid conducting cylinder and thin cylindrical…
Q: 22.11 • A 6.20-µC point charge is at the center of a cube with sides of length 0.500 m. (a) What is…
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Q: 4. A closed irregular surface encloses a net charge of 1.50 x 10 -6 C. what is the net electric flux…
A: 4. Given data: Charge enclosed by the closed surface is, Q=1.50×10-6 C.
Q: 1. What is the electric field outside an insulating sphere with a radius a and charge Q unifomly…
A: The electric field outside an sphere having charge Q uniformly distributed in it is same as the…
Q: A charge q, of 33 µC is placed at the origin of the xy-coordinate system and a charge q2 of -75 µC…
A: 24 field at P due to charge placed at the origin is…
Q: If the electric flux density is î - 2j + 2k, find the charge density per unit volume in this region?
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Q: how many eggs as electrons must be added to an isolated a spherical conductor 0.100 m in diameter to…
A: Given, Diameter: 0.100 m radius : 0.05 m Electric field: 1800 N/C
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- علم هذا السؤال Find the electric flux ( in units of N.m²/C) through the surface of the rectangle ( 30 cm × 40 cm) in the figure .given that E = 718.5 N/C Normal E 0-30Calculate the electric field generated by the circular element at point A if the radius ВС- 30 ст, AB = 40cm 1 = 2x106 1=2x106 C m BThe charge density on the surface of a conducting sphere is 128 x 10- C/m? and the electric intensity at a distance of 4 m from the centre of the sphere is 8n x 10' N/C. Find radius of sphere.
- Suppose we have a charge, q1=1 μC. This charge makes an electric field some distance r=73 cm away from it. Now suppose our measurement of q1 is only accurate to within 0.2 μC, and our measurement of r is only accurate to within 1.5 cm.a) If we were to calculate the electric field made by that charge at the indicated distance, what would be the uncertainty in our calculation due only to the uncertainty in the size of q1? For part a) I got 958 N/C which is wrong b) What is the uncertainty in our field calculation due only to the uncertainty in the charge separation r? For part b) I got 14.91 N/C which is wrong c) What is the total uncertainty in our electric field calculation due to the uncertainty in the size of q1 and the uncertainty in the charge separation r? My answer for part c) was 972 N/CSuppose we have a charge, q1=3 μC. This charge makes an electric field some distance r=69 cm away from it. Now suppose our measurement of q1 is only accurate to within 0.1 μC, and our measurement of r is only accurate to within 1 cm. a)If we were to calculate the electric field made by that charge at the indicated distance, what would be the uncertainty in our calculation due only to the uncertainty in the size of q1? b)What is the uncertainty in our field calculation due only to the uncertainty in the charge separation r? c)What is the total uncertainty in our electric field calculation due to the uncertainty in the size of q1 and the uncertainty in the charge separation r?Find the magnitude of the electric field at 0.05 [m] inside a sphere with radius 0.1 [m] carrying charge density p=1[μC/m³]. -Use numbers when answering, rounding to the hundredths in the format 0.00 -Answer in units of [V/m]
- Q. 1. Define electric flux and write its SI unit. The electric field components in the figure shown are: + CORDO a Ex X Z 100 N E₁ = ox, Ey = 0, E₂ = 0 where a = Cm the charge within the cube, assuming a = 0.1 m. · Calculate1 ! 7 A skát с A spherically symmetric charge distribution produces the electric field E=( 5400 r²) N/C, where r is in m. Z mylabmastering.pearson.com/?courseld=12649908&key=55673220682936520262024#/ 2 pos W S X 3 20 F3 E D $ 4 C 888 R F What is the electric field strength at r= 16.0 cm ? Express your answer in newtons per coulomb. VG ΑΣΦ 4 Submit Part B Submit Part C What is the electric flux through a 32.0-cm-diameter spherical surface that is concentric with the charge distribution? Express your answer in newton meters squared per coulomb. ΕΠΙ ΑΣΦ % [VG| ΑΣΦ 5 Request Answer V FO Request Answer T How much charge is inside this 32.0-cm-diameter spherical surface? Express your answer in coulombs. G 4 a ^ 6 C 244 MacBook Air Y B SMC & ? 7 H ? N/C 80 F7 N-m²/C U C N H 8 - DII FS 1 ( 9 M DD K chegg.com X C ☆ O O MOSISO O 4 PThe volume charge density of a spherically charged cloud changes with the distance to the cloud center as p(r) = po r a " where the parameters are po 1.85 nC/m³ and a = 22 m. Find the magnitude of electric field at distance d = 25 m from the cloud center. The electric field, E(r = 25 m) = 1484.65 Find the electric field (in N/C) as a function of r (in m). Do not submit the units. The electric field, E(r) = 1484.65 N/C. = Units N/C
- Problem 3: The electric field in a certain region is given by the function E = Ak cos (kx) cos (by) i – Ab sin (kx) sin (by) where A = 18.06 N-m/C, k = 0.702 m ¹, and b = 1.29 m¹. The points in the figure use the values 1 1.5 m and u₁= 3.36 m. Part (a) What is the change in electric potential, in volts, from point (0, 0) to point (x₁, 0)? V(x₁,0) - V(0, 0) = Part (b) What is the change in potential, in volts, from point (x₁, 0) to point (x₁.y₁)? V(x1.₁) - V(x₁.0)=1 V V V (0,y₁) Part (c) What is the change in potential, in volts, from point (0, 0) to point (₁. ₁), along the path that passes through (x₁, 0)? V(x₁, y₁) - V(0, 0) = (0,0) (x₁₂V₁) (x₁,0)An electric field is = sign(x)·(370 N/C), where sign(x) equals −1 if x < 0, 0 if x = 0, and +1 if x > 0. A cylinder of length L = 24 cm and radius R = 3.6 cm has its center at the origin and its axis along the x axis such that one end is at x= +12 cm and the other is at x = -12 cm. (a) What is the flux through each end? N · m2/C (+x end) N · m2/C (-x end)(b) What is the flux through the curved surface of the cylinder? N · m2/C(c) What is the net outward flux through the entire cylindrical surface? N · m2/C(d) What is the net charge inside the cylinder? CIf Q1 = -3 x 10^(-8) C, Q2= 8 x 10^(-8) C, L1= 5 cm, L2= 5cm, the point at which the electric field is zero is?