Magnification Workbook | PDF - Free Printable
Educational worksheet: Magnification Workbook | PDF. Download and print for classroom or home learning activities.
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Step-by-step solution for: Magnification Workbook | PDF
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Show Answer Key & Explanations
Step-by-step solution for: Magnification Workbook | PDF
It looks like you've uploaded a worksheet about magnification in a compound light microscope, but the actual image or specific problem to solve isn't included in your message. However, I can help you understand and complete the tasks on this worksheet based on the information provided.
Let me break down the two main sections of the worksheet and explain how to solve them:
---
Rule:
Total Magnification = Eyepiece Magnification × Objective Magnification
Let’s fill in the missing values in the table:
| Eyepiece Magnification | Objective Magnification | Overall Magnification |
|------------------------|-------------------------|------------------------|
| X10 | X4 | X40 |
| X10 | X10 | X100 |
| X10 | X40 | X400 |
| X10 | X100 | X1000 |
✔ Explanation:
- First row: 10 × 4 = 40 → Already given
- Second row: 10 × 10 = 100 → Fill in X100
- Third row: 10 × 40 = 400 → Already given
- Fourth row: 10 × 100 = 1000 → Fill in X1000
So the completed table is:
```
X10 X4 X40
X10 X10 X100
X10 X40 X400
X10 X100 X1000
```
---
You are given the formula triangle (I = Image size, A = Actual size, M = Magnification):
```
I
A M
```
And the formulas:
- Magnification = Image size / Actual size
- Actual size = Image size / Magnification
> You will be asked to calculate one of these three values using the other two.
#### ✔ Example Problem (since no specific image is provided, here's a sample):
Problem:
A cell has an actual size of 0.05 mm. The image of the cell under the microscope measures 10 mm. What is the magnification?
---
Step-by-step solution:
1. Formula used:
Magnification = Image size / Actual size
2. Working:
Magnification = 10 mm / 0.05 mm
= 200
3. Answer + Units:
200x (no units for magnification, just "times")
---
Another example:
Problem:
The image size of a cell is 8 mm, and the magnification is 400x. What is the actual size?
1. Formula used:
Actual size = Image size / Magnification
2. Working:
Actual size = 8 mm / 400
= 0.02 mm
3. Answer + Units:
0.02 mm
---
1. Identify what you’re solving for: Magnification, Image size, or Actual size
2. Use the correct formula:
- Magnification = Image size ÷ Actual size
- Image size = Magnification × Actual size
- Actual size = Image size ÷ Magnification
3. Plug in known values
4. Show working clearly
5. Include units where appropriate
---
If you have a specific image or question (e.g., a diagram with measurements), please upload it or describe it, and I’ll solve that exact problem for you step by step!
For now, here’s a completed version of the first part:
| Eyepiece Magnification | Objective Magnification | Overall Magnification |
|------------------------|-------------------------|------------------------|
| X10 | X4 | X40 |
| X10 | X10 | X100 |
| X10 | X40 | X400 |
| X10 | X100 | X1000 |
Let me know if you’d like help with a particular calculation or image!
Let me break down the two main sections of the worksheet and explain how to solve them:
---
🔹 Part 1: Calculating Total Magnification of a Compound Light Microscope
Rule:
Total Magnification = Eyepiece Magnification × Objective Magnification
Let’s fill in the missing values in the table:
| Eyepiece Magnification | Objective Magnification | Overall Magnification |
|------------------------|-------------------------|------------------------|
| X10 | X4 | X40 |
| X10 | X10 | X100 |
| X10 | X40 | X400 |
| X10 | X100 | X1000 |
✔ Explanation:
- First row: 10 × 4 = 40 → Already given
- Second row: 10 × 10 = 100 → Fill in X100
- Third row: 10 × 40 = 400 → Already given
- Fourth row: 10 × 100 = 1000 → Fill in X1000
So the completed table is:
```
X10 X4 X40
X10 X10 X100
X10 X40 X400
X10 X100 X1000
```
---
🔹 Part 2: Calculating Cell Magnification from Images
You are given the formula triangle (I = Image size, A = Actual size, M = Magnification):
```
I
A M
```
And the formulas:
- Magnification = Image size / Actual size
- Actual size = Image size / Magnification
> You will be asked to calculate one of these three values using the other two.
#### ✔ Example Problem (since no specific image is provided, here's a sample):
Problem:
A cell has an actual size of 0.05 mm. The image of the cell under the microscope measures 10 mm. What is the magnification?
---
Step-by-step solution:
1. Formula used:
Magnification = Image size / Actual size
2. Working:
Magnification = 10 mm / 0.05 mm
= 200
3. Answer + Units:
200x (no units for magnification, just "times")
---
Another example:
Problem:
The image size of a cell is 8 mm, and the magnification is 400x. What is the actual size?
1. Formula used:
Actual size = Image size / Magnification
2. Working:
Actual size = 8 mm / 400
= 0.02 mm
3. Answer + Units:
0.02 mm
---
✔ Summary of How to Solve Any Question on This Worksheet:
1. Identify what you’re solving for: Magnification, Image size, or Actual size
2. Use the correct formula:
- Magnification = Image size ÷ Actual size
- Image size = Magnification × Actual size
- Actual size = Image size ÷ Magnification
3. Plug in known values
4. Show working clearly
5. Include units where appropriate
---
If you have a specific image or question (e.g., a diagram with measurements), please upload it or describe it, and I’ll solve that exact problem for you step by step!
For now, here’s a completed version of the first part:
✔ Completed Table:
| Eyepiece Magnification | Objective Magnification | Overall Magnification |
|------------------------|-------------------------|------------------------|
| X10 | X4 | X40 |
| X10 | X10 | X100 |
| X10 | X40 | X400 |
| X10 | X100 | X1000 |
Let me know if you’d like help with a particular calculation or image!
Parent Tip: Review the logic above to help your child master the concept of magnification worksheet.