Homework 2. Gauss's Law xercise 22.10 A point charge 360 Cis located on the ads at 200 m. and a second popt charge =7.00 nCson the yas at y1.15 Part A What is the total electric foc due to these two point charges through a spherical surtace oentered at the orig * O B ? N./c Submit Part B What is the totalelectic fux due to these two point charpes through a spherical surtace centered at the origin. Submit Beovest Ae Part C 65E Mos

Transcribed Image Text:

### Electric Flux Calculation #### Part C **Question:** What is the total electric flux due to these two point charges through a spherical surface centered at the origin and with a radius \( r = 2.40 \, \text{m} \)? **Solution:** *Enter your solution in the text box below and make sure to include appropriate units.* - Electric flux (Φ) = __________ \( \text{N} \cdot \text{m}^2/\text{C} \) **Steps to Consider:** 1. Understand the concept of electric flux and its relation to point charges. 2. Use Gauss's law if necessary to calculate the electric flux through a spherical surface. **Submission Box:** [Text Box for Answer Entry] **Controls:** - Symbol Editor - Equation Builder - Various Mathematical Symbols and Functions **Submit Button:** - Press this button to submit your answer: [Submit] **Request Answer Button:** - Use this button if you need hints or help with the question: [Request Answer] **Provide Feedback:** - Click here to give any feedback regarding this question or interface. --- **Note on the Interface:** The image shows an online educational platform where students can input their answers to physics problems related to electric flux. The interface provides tools such as a mathematical symbol editor to aid in the correct formatting of the solution.

Transcribed Image Text:

--- ### Homework 2. Gauss's Law #### Exercise 22.10 A point charge **q1 = 3.0 µC** is located on the x-axis at **x = 2.00 m**, and a second point charge **q2 = -7.00 µC** is on the y-axis at **y = 1.15 m**. **Part A** What is the total electric flux due to these two point charges through a spherical surface centered at the origin and with radius **r1 = 0.553 m**? - Input box: [Answer box for the total electric flux in N·m²/C] - Button: [Submit] - Button: [Request Answer] **Part B** What is the total electric flux due to these two point charges through a spherical surface centered at the origin and with radius **r = 1.55 m**? - Input box: [Answer box for the total electric flux in N·m²/C] - Button: [Submit] - Button: [Request Answer] **Part C** [Section likely for further questions or answers, details not provided in the image.] --- In this exercise, you'll need to apply Gauss's Law to find the total electric flux through the surfaces described. For parts A and B, calculate the electric flux considering the positions of the point charges relative to the specified spherical surfaces.