Please asap Question:30Figure 1. Around a single point charge + are indicated equipotential surfaces with radii ₁ and 2-A charge +Q=6.81μ C is located at the origin.Part 1)What is the electric potential at a distance r₁ = 2.27 cm from +Q? Take the electric potential at ∞o to be 0.V =Part 2)What is the change in electric potential as a test charge moves from ₁ = 2.27 cm to r₂ = 8.85 cm in this field?V=Part 3)A particle with a charge +2.56 × 10-¹8 C and mass 5.36 x 10-26 kg is released from rest at 7₁ = 2.27 cm. What speed does it have when it reaches 72 = 8.85 cm?m/sV

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Figure 1. Around a single point charge +Qare indicated equipotential surfaces with radii ₁ and 2- A charge +Q=6.81μ C is located at the origin. Part 1) What is the electric potential at a distance r₁ = 2.27 cm from +Q? Take the electric potential at ∞o to be 0. V= V Part 2) What is the change in electric potential as a test charge moves from ₁ = 2.27 cm to r₂ = 8.85 cm in this field? V= Part 3) A particle with a charge +2.56 x 10-18 C and mass 5.36 × 10-26 kg is released from rest at r₁=5 2.27 cm. What speed does it have when it reaches 1₂ = 8.85 cm? m/s V

Figure 1. Around a single point charge +Qare indicated equipotential surfaces with radii ₁ and 2- A charge +Q=6.81μ C is located at the origin. Part 1) What is the electric potential at a distance r₁ = 2.27 cm from +Q? Take the electric potential at ∞o to be 0. V= V Part 2) What is the change in electric potential as a test charge moves from ₁ = 2.27 cm to r₂ = 8.85 cm in this field? V= Part 3) A particle with a charge +2.56 x 10-18 C and mass 5.36 × 10-26 kg is released from rest at r₁=5 2.27 cm. What speed does it have when it reaches 1₂ = 8.85 cm? m/s V

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter20: Electric Potential And Capacitance

Section: Chapter Questions

Problem 10P: Three particles with equal positive charges q are at the corners of an equilateral triangle of side...

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