Alright, let's break down the solution into a step-by-step process.
### Part A Calculation:
We begin by focusing on Part A tasks. Here are the points for each task:
1. Calculate the magnification power of a compound microscope = 4 points
2. Identify common errors in using a microscope = 5 points
3. Observation of protist specimen = 10 points
4. Observation of animal tissue specimen = 10 points
5. Observation of plant tissue specimen = 10 points
Adding these together, we get the total points for Part A:
[tex]\[
\text{Part A Points} = 4 + 5 + 10 + 10 + 10 = 39
\][/tex]
### Part B Calculation:
Now, let's move on to Part B tasks. Here are the points for each:
1. Identify cell structures = 5 points
2. Connect the structure of animal tissues to their function = 10 points
3. Identify and explain the structure of the cell wall = 10 points
4. Identify unicellular and multicellular organisms = 10 points
5. Use results to explain why cells are the building blocks of life = 10 points
6. Explain why electron microscopes create a stronger magnification than compound microscopes = 5 points
7. Compare blood specimen images from a compound microscope to those from an electron microscope = 10 points
Adding these together, we get the total points for Part B:
[tex]\[
\text{Part B Points} = 5 + 10 + 10 + 10 + 10 + 5 + 10 = 60
\][/tex]
### Total Points Calculation:
Finally, we add the points from Part A and Part B to get the total points:
[tex]\[
\text{Total Points} = \text{Part A Points} + \text{Part B Points} = 39 + 60 = 99
\][/tex]
### Summary:
- Part A Points: 39
- Part B Points: 60
- Total Points: 99
So, the solution involves first calculating the points for each part by summing up the respective task points, and then adding the points from both parts to get the total.
