Question

complete the following: 1. sketch the millimeter scale as it appears using the low-power objective. 2. what do you estimate the diameter of this field of view to be in millimeters? △ 2.5 mm 3. how does the diameter of the scanning power field of view compare with that of the low-power field?

Explanation:

Question 2

Step1: Analyze the scale

Assume the millimeter scale divisions are visible. If the field of view spans, say, 1.5 mm (common for low - power in some microscopes), we estimate based on the scale's appearance.

Step2: Estimate the diameter

From typical microscope setups and the given sketch (with scale divisions), the estimated diameter is around 1.5 mm.

Scanning power (usually lower magnification than low - power) has a larger field of view diameter. Magnification and field of view are inversely related: as magnification increases (from scanning to low - power), the field of view diameter decreases. So the scanning power field of view diameter is larger than the low - power field of view diameter.

Answer:

1.5 mm (Note: This can vary based on actual microscope and scale, but a common estimate for low - power field of view diameter is around 1 - 2 mm, with 1.5 mm being a typical estimate.)

Question 3