Academic Integrity: tutoring, explanations, and feedback — we don’t complete graded work or submit on a student’s behalf.

1.) Estimate the length of each of the following objects in um: (400x) (100x) 2.

ID: 51834 • Letter: 1

Question

1.) Estimate the length of each of the following objects in um:

(400x) (100x)

2.) How does a microscope's iris diaphragm lever work like the iris of an eye?

3.) Assume that you are using the low-power objective and an object takes up a quarter of the field of view. Estimate the diameter of the object in um.

4.) Indicate a possible solution for each of the following complaints during microscope usage:

a.) There is not enough light to view a specimen:

b.) I can't find the specimen on the slide:

c.) I see a dark crescent-shaped structure.

Explanation / Answer

This question deals with compound microscope.

1) The scale of length measurement of the field of view is in mm. The field of view for a 40X objective would be around 4.5mm. Thus, length of object for 400X would be 40/400 x 4500 = 450um. For 100X objective it would be 40/100 x 4500 = 1800 um.

2) The iris is a circular structure in the eye which controls the diameter and aperture of the pupil which ultimately controls the intensity of light reaching the retina. In a similar way compound microscopes are fitted with a rotating disk called as diaphragm of iris which has different sized holes of different diameters. They are adjustable and have a function similar to that of the iris in eye. They control the intensity of light and help in maintaining contrast and resolution.

3) If an object takes quarter of the field of view, its size would be 0.25 times the size of field of view which ranges from 16-18 mm for a 10X objective (low power). Thus the diameter of the object would be 0.25 x 16 = 4mm. This calculation is based on estimations. Values will vary with different parameters and objectives.

4) a) If there is not enough light, then the iris diaphragm can be used to enhance the contrast. Also the condensor can be tweaked a bit.

b) To find the specimen use a low power objective to identify the location of the specimen on the field of view. After focusing on the required area switch to the appropriate objective.

c) Adjusting the light mirror and tweaking the condensor will solve the problem.

"A malaria biologist"

Related Questions

1.) Consider the following salt solutions all at the same concentration. NaHCO 3
Question #828742
1.) Consider the formation of hydrogen fluoride: H 2 (g) + F 2 (g) 2HF(g) If a 4
Question #481689
1.) Consider the image formed by a thin diverging lens. Decide if the image will
Question #1309514
1.) Consider the probability that greater than 70 out of 144 CDs will be defecti
Question #2909784
1.) Consider the reaction 3A <===> 2B, where the value of K is 22.1. If the conc
Question #1007899
1.) Consider the reaction Br 2 (g) + Cl 2 (g) <===> 2BrCl(g) Calculate the value
Question #1007901
1.) Consider the reaction: B2H6(g) + 3O2(g) àB2O3(s) + 3H2O(g) H = -2035 kJ Calc
Question #926776
1.) Consider the traffic deadlock depicted in Figure 7.10. a. Show that the four
Question #3680825
Hire Me For All Your Tutoring Needs
Integrity-first tutoring: clear explanations, guidance, and feedback.
Drop an Email at
drjack9650@gmail.com
Chat Now And Get Quote

Navigate

Previous
1.) Envision the voltage-gated ion channels at a node of Ranvier. When these cha
Next
1.) Estimate the natural frequency of a 0.5 L plastic water bottle if the temper

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.