= Consider the system provided below. If a constant and static electric field E₁ is given, find Ē₂. E₂ = 6€ + 5y + 12€ E₂ = 10€ + 5€y + 12€ E₂ = 8€ + 6€y + 4€² □E₂ = 10€ +12y + 6€₂ Region 1 t1 = tho Er.1 = 3 Ē₁ x=0 10€ +5ey +12€ Region 2 Hz = Ho Er2 = 5 tus E₂
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- А. + 5. All of the charges in the figure have the same magni- tude. In which case does the electric field at the dot С. D. have the smallest magnitude? А. В. С. D. B.The sides of a right triangle are BC=3, AC=4, and AB=5 cm. if +10 statC charges are placed at the corners B and C, what is the magnitude and direction of the electric intensity at A?Find the electric field at the location of qa in Figure18.53 given that qb = qc = qd=+2.00 nC ,q = −1.00 nC , and the square is 20.0 cm on a side
- SA positive test charge of 5.0 x 10-6 C is in an electric field that exerts a force of 2.0 x 10-4 N on it. What is the magnitude of the electric field at the location of the test charge? O 04 N/C 4 x 10A1 N/C O 1x 10-9 N/C O 1x 109 N/CO File C:/Users/danie/Downloads/Exam%202%... ☆ EApps Analysis of Not Wa... YouTube A Maps M Gmail EReading list Exam 2 Practic... 5 / 6 100% Ans. C 12. Two point charges are separated by 1.00 × 10² m. One charge is -2.8 x 10-8 C; and the other is +2.8 x 10-8 C. The points A and B are located 2.5 × 10³ m from the lower and upper point charges as shown. If an electron, which has a charge of 1.60 × 10-19 C, is moved from rest at A to rest at B, what is the change in electric potential energy of the electron? O +2.8 x 10-8 C 0.0025 m • B 0.0050 m •A 0.0025 m L0 -2.8 x 10 8 C A) +4.3 x 10 15 J 2 Type here to search DELL 个 IIIQ3 Find the electric field a distance y above the midpoint between two equal and opposite charges, q and-q, that are a distance d apart as shown in Fig. 1 below. Consider ONLY case where (y >> d). (i) Ē= (ii) E 1 qdx Απε, y3 1 4πEO qd - ° [y²+(99²] *¹² (iii) Ē= 1 qd Απεο y/2 (iv) None of the above -x (1) E (ii) Ē = -9 = 1 qd 4περ y3 d/2 12 Fig. 1 d/2 +q 1 qd Απερ 3/2 * * [y² + (9²]
- Calculate the magnitude and direction of the electric field 22.5 cm directly above an isolated 33 µC? 5.87 x 1012 N C 5.87 х 10° — ирward N 5.87 x 106 * upward C 1.32 x 1012 NExample 19.3.4: Determine the magnitude and direction of the net force on q, in the diagram to the right. 92 -10.0 µC 0.15 m 60.0° 43 91 0.20 m 6.0 μC -3.0 μCPoint charges q₁ =92 = 3.2 x 10-6 C are fixed on the x-axis at x = -3.8 m and x = 3.8 m. What charge q (in C) must be placed at the origin so that the electric field vanishes at x = 0, y = 3.8 m? C + Additional Materials Reading
- A 3.65x10 12 Cis placed inside a cube. What is the amount of electric flux passing through each side? O 0.07 Nm^2/C^2 O 0.07x10^2 Nm^2/C O 0.07 Nm^2/C O 0.07x10^2 Nm^2/C^2Calculate the total magnitude of electric field in this arbitrarily shaped conductor. 8 10 2 9. 11 6Calculate the electric flux for each of the following sets of variables. 1. Ē> = 7.6 × 1013 N/C A = 4.4 × 10-6 m2 Ø = 45° 2. Ē> = 6.9 × 103 N/C A = 3.1 × 10-3 m2 Ø = 45° 3. Ē> = 8.2 × 105 N/C A = 6.1 × 105-7 m2 Ø= 90° 4. How can you relate work to potential energy? 5. Cite personal experiences that show the relationship between work and potential energy. 6. Relate electric potential to the following concepts: a. Potential Energy b. Work c. Electric Field