question 3 (1 point)
(03.02 mc)
what would be the magnification of a specimen viewed with a compound light microscope that has an objective power of 40x and an ocular lens power of 10x?
○ a 400x
○ b 50x
○ c 500x
○ d 40x

question 4 (1 point)
(03.02 mc)
which is a difference between a compound light microscope and a scanning electron microscope?
○ a the scanning electron microscope can view the internal part of a cell, while the compound light microscope views the surface of a cell
○ b the scanning electron microscope specimens can be stained for contrast, while the compound light microscope specimens appear black and white.
○ c the scanning electron microscope is used for dissection, while the compound light microscope is not
○ d the scanning electron microscope uses an electron beam and a layer of gold to view the surface of the cell, while the compound light microscope uses light and lenses.

Question

question 3 (1 point)
(03.02 mc)
what would be the magnification of a specimen viewed with a compound light microscope that has an objective power of 40x and an ocular lens power of 10x?
○ a 400x
○ b 50x
○ c 500x
○ d 40x

question 4 (1 point)
(03.02 mc)
which is a difference between a compound light microscope and a scanning electron microscope?
○ a the scanning electron microscope can view the internal part of a cell, while the compound light microscope views the surface of a cell
○ b the scanning electron microscope specimens can be stained for contrast, while the compound light microscope specimens appear black and white.
○ c the scanning electron microscope is used for dissection, while the compound light microscope is not
○ d the scanning electron microscope uses an electron beam and a layer of gold to view the surface of the cell, while the compound light microscope uses light and lenses.

Accepted Answer

### Question 3 (assuming the question is about microscope magnification)
# Explanation:
## Step1: Recall magnification formula
The total magnification of a compound light microscope is the product of the objective lens power and the ocular lens power. The formula is $ \text{Total Magnification} = \text{Objective Power} \times \text{Ocular Power} $.
## Step2: Identify given values
From the problem, the objective power is $ 40\times $ and the ocular lens power is $ 10\times $.
## Step3: Calculate total magnification
Substitute the values into the formula: $ 40\times10 = 400\times $.
# Answer: 400x (assuming option a is 400x)

### Question 4
# Brief Explanations:
- Option a: Compound light microscopes can view internal parts (with proper staining) and SEM views surface, so a is wrong.
- Option b: SEM specimens are often black and white, and compound light can show color (with proper staining), so b is wrong.
- Option c: Both can be used for dissection? No, SEM is for detailed surface analysis, compound light for general cell viewing. So c is wrong.
- Option d: SEM uses electron beams and a grid, compound light uses light and lenses. This matches the differences.
# Answer: d. The scanning electron microscope uses an electron beam and a layer of gold to view the surface of the cell, while the compound light microscope uses light and lenses.

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QUESTION IMAGE

Question

Explanation:

Question 3 (assuming the question is about microscope magnification)

Step1: Recall magnification formula

Step2: Identify given values

Step3: Calculate total magnification

Answer:

Question 4