### Image Transcription for Educational Website#### Microscope Lens SystemA microscope has a +0.50-cm objective lens and a +3.0-cm eyepiece, which is 20 cm from the objective lens.---#### Part A**Objective:** Determine the distance from the object to the objective lens to form a final virtual image 100 cm to the left of the eyepiece.**Instructions:** Express your answer with the appropriate units.**Input Box:** - Symbol: \( s_1 = \)- Unit: m**Submission Options:** - "Submit" button.- "Previous Answers" link.- "Request Answer" option.**Response Indicator:** Shows a message "Incorrect; Try Again; 28 attempts remaining."---#### Part B**Objective:** What is the total angular magnification of the microscope, assuming a near point of 25 cm?**Input Box:** - Symbol: \( M = \)---This image is part of a digital educational platform where students can input their answers, submit, and receive feedback on their attempts.

let us calculate the object distance for the eyepiece f= 3cm v= -100 cm…

A microscope has a +0.50-cm objective lens and a +3.0-cm eyepiece that is 20 cm from the objective lens. Determine the distance from the object to the objective lens to form a final virtual image 100 cm to the left of the eyepiece?

A microscope has a +0.50-cm objective lens and a +3.0-cm eyepiece that is 20 cm from the objective lens. Determine the distance from the object to the objective lens to form a final virtual image 100 cm to the left of the eyepiece?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

### Image Transcription for Educational Website

#### Microscope Lens System

A microscope has a +0.50-cm objective lens and a +3.0-cm eyepiece, which is 20 cm from the objective lens.

---

#### Part A

**Objective:**
Determine the distance from the object to the objective lens to form a final virtual image 100 cm to the left of the eyepiece.

**Instructions:**
Express your answer with the appropriate units.

**Input Box:**
- Symbol: \( s_1 = \)
- Unit: m

**Submission Options:**
- "Submit" button.
- "Previous Answers" link.
- "Request Answer" option.

**Response Indicator:**
Shows a message "Incorrect; Try Again; 28 attempts remaining."

---

#### Part B

**Objective:**
What is the total angular magnification of the microscope, assuming a near point of 25 cm?

**Input Box:**
- Symbol: \( M = \)

---

This image is part of a digital educational platform where students can input their answers, submit, and receive feedback on their attempts.

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