Loading...

Messages

Proposals

Stuck in your homework and missing deadline? Get urgent help in $10/Page with 24 hours deadline

Get Urgent Writing Help In Your Essays, Assignments, Homeworks, Dissertation, Thesis Or Coursework & Achieve A+ Grades.

Privacy Guaranteed - 100% Plagiarism Free Writing - Free Turnitin Report - Professional And Experienced Writers - 24/7 Online Support

Using a compound microscope lab report

09/01/2021 Client: saad24vbs Deadline: 7 Days

Microscopes and Cells


PRE-LAB ASSIGNMENT:


Students are expected to watch this video (which is also posted on Blackboard): https://www.youtube.com/watch?v= - b3Eejf4rDQ


AND read pages 1 to 4 before coming to the lab to complete the experiments.



Print this entire lab packet and bring it to the laboratory. Please provide a FULL lab report for this experiment following the “Lab Report Guidelines”.



Objectives:


After completing this laboratory assignment, students will be able to:


· Identify the parts of a compound microscope.


· Properly use a compound microscope for biological studies.


· Describe the features of specific cells.


· Determine characteristics shared by all cells studied.


Microscopes and Lenses:


Although cells vary in size, they’re generally quite small. For instance, the diameter of a typical human red blood cell is about eight micrometers (0.008 millimeters). To give you some context, the head of a pin is about one millimeter in diameter, so about 125 red blood cells could be lined up in a row across the head of a pin. With a few exceptions, individual cells cannot be seen with the naked eye, so scientists must instead use microscopes (micro- = “small”; -scope = “to look at”) to study them. A microscope is an instrument that magnifies objects otherwise too small to be seen, producing an image in which the object appears larger. Most photographs of cells are taken using a microscope, and these pictures can also be called micrographs. From the definition above, it might sound like a microscope is just a kind of magnifying glass. In fact, magnifying glasses do qualify as microscopes; since they have just one lens, they are called simple microscopes. The fancier instruments that we typically think of as microscopes are compound microscopes, meaning they have multiple lenses. Because of the way these lenses are arranged, they can bend light to produce a much more magnified image than that of a magnifying glass.


In a compound microscope with two lenses, the arrangement of the lenses has an interesting consequence: the orientation of the image you see is flipped in relation to the actual object you’re examining. For example, if you were looking at a piece of newsprint with the letter “e” on it, the image you saw through the microscope would be “ə." More complex compound microscopes may not produce an inverted image because they include an additional lens that “re-inverts” the image back to its normal state.


What separates a basic microscope from a powerful machine used in a research lab? Two parameters are especially important in microscopy: magnification and resolution.


· Magnification is a measure of how much larger a microscope (or set of lenses within a microscope) causes an object to appear. For instance, the light microscopes typically used in high schools and colleges magnify up to about 400 times actual size. So, something that was 1 mm wide in real life would be 400 mm wide in the microscope image.


· The resolution of a microscope or a lens is the smallest distance by which two points can be separated and still be distinguished as separate objects. The smaller this value, the higher the resolving power of the microscope and the better the clarity and detail of the image. If two bacterial cells were very close together on a slide, they might look like a single, blurry dot on a microscope with low resolving power, but could be told apart as separate on a microscope with high resolving power.


Both magnification and resolution are important if you want a clear picture of something very tiny. For example, if a microscope has high magnification but low resolution, all you’ll get is a bigger version of a blurry image. Different types of microscopes differ in their magnification and resolution.


Light Microscopes:


Most student microscopes are classified as light microscopes. In a light microscope, visible light passes through the specimen (the biological sample you are looking at) and is bent through the lens system, allowing the user to see a magnified image. A benefit of light microscopy is that it can often be performed on living cells, so it’s possible to watch cells carrying out their normal behaviors (e.g., migrating or dividing) under the microscope.


Student lab microscopes tend to be brightfield microscopes, meaning that visible light is passed through the sample and used to form an image directly, without any modifications. Slightly more sophisticated forms of light microscopy use optical tricks to enhance contrast, making details of cells and tissues easier to see.


Another type of light microscopy is fluorescence microscopy, which is used to image samples that fluoresce (absorb one wavelength of light and emit another). Light of one wavelength is used to excite the fluorescent molecules, and the light of a different wavelength that they emit is collected and used to form a picture. In most cases, the part of a cell or tissue that we want to look at isn't naturally fluorescent, and instead must be labeled with a fluorescent dye or tag before it goes on the microscope.


A confocal microscope is a specialized kind of fluorescence microscope that uses a laser to excite a thin layer of the sample and collects only the emitted light coming from the target layer, producing a sharp image without interference from fluorescent molecules in the surrounding layers.


Electron Microscopes:


Some cutting-edge types of light microscopy (beyond the techniques we discussed above) can produce very high-resolution images. However, if you want to see something very tiny at very high resolution, you may want to use a different, tried-and-true technique: electron microscopy.


Electron microscopes differ from light microscopes in that they produce an image of a specimen by using a beam of electrons rather than a beam of light. Electrons have a much shorter wavelength than visible light, and this allows electron microscopes to produce higher-resolution images than standard light microscopes. Electron microscopes can be used to examine not just whole cells, but also the subcellular structures such as organelles and compartments within them.


One limitation, however, is that electron microscopy samples must be placed under a vacuum in electron microscopy (and typically are prepared via an extensive fixation process). This means that live cells cannot be imaged.




In the image above, you can compare how Salmonella bacteria look in a light micrograph (left) versus an image taken with an electron microscope (right). The bacteria show up as tiny purple dots in the light microscope image, whereas in the electron micrograph, you can clearly see their shape and surface texture, as well as details of the human cells they’re trying to invade.


There are two major types of electron microscopy. In scanning electron microscopy (SEM), a beam of electrons moves back and forth across the surface of a cell or tissue, creating a detailed image of the 3D surface. This type of microscopy was used to take the image of the Salmonella bacteria shown at right, above.


In transmission electron microscopy (TEM), in contrast, the sample is cut into extremely thin slices (for instance, using a diamond cutting edge) before imaging, and the electron beam passes through the slice rather than skimming over its surface. TEM is often used to obtain detailed images of the internal structures of cells.


Electron microscopes are significantly bulkier and more expensive than standard light microscopes, perhaps not surprisingly given the subatomic particles they have to handle!



(Above information was adapted from Khan Academy: https://www.khanacademy.org/science/biology/structure-of-a-cell/introduction-to-cells/a/microscopy)


Please Note: Treat these microscopes with the greatest care!



Exercise 1: Basic Microscope Techniques


In this exercise, you will learn to use the microscope to examine a recognizable object, a slide of the letter e and crossed threads. Recall that microscopes vary, so you may have to omit steps that refer to features not available on your microscope. Practice adjusting your microscope to become proficient in locating a specimen, focusing clearly, and adjusting the light for the best contrast.


1. Obtain the following materials:


· Clear ruler  Blank slides  2 prepared slides: letter “e” & crossed thread


· Lens paper  Kimwipes®  Dropper bottle with distilled water


· Coverslips


2. Clean microscope lenses.


a. Each time you use the microscope, you should begin by cleaning the lenses. Using lens paper moistened with a drop of distilled water, wipe the ocular, objective, and condenser lenses. Wipe them again with a piece of dry lens paper.


3. Adjust the focus on your microscope:


a. Plug your microscope into the outlet.


b. Turn on the light. Adjust the light intensity to mid-range (if your microscope has that feature).


c. Rotate the 4X objective into position using the revolving nosepiece ring, not the objective itself.


d. Obtain the letter slide and wipe it with a Kimwipe® tissue.


i. Each time you study a prepared slide, you should first wipe it clean.


e. Place the letter slide on the stage and center it over the stage opening.


Please Note: Slides should be placed on and removed from the stage only when the 4X objective is in place. Removing a slide when the higher objectives are in position may scratch the lenses.



f. Look through the ocular and bring the letter into rough focus by slowly focusing upward using the coarse adjustments.


g. For binocular microscopes, looking through the oculars, move the oculars until you see only one image of the letter e. In this position, the oculars should be aligned with your pupils. In the margin of your lab paper, make a note of the interpupillary distance on the scale between the oculars.


h. Raise the condenser to its highest position, and fully close the iris diaphragm.


i. Looking through the ocular, slowly lower the condenser just until the graininess disappears. Slowly open the iris diaphragm just until the entire field of view is illuminated. This is the correct position for both the condenser and the iris diaphragm.

Homework is Completed By:

Writer Writer Name Amount Client Comments & Rating
Instant Homework Helper

ONLINE

Instant Homework Helper

$36

She helped me in last minute in a very reasonable price. She is a lifesaver, I got A+ grade in my homework, I will surely hire her again for my next assignments, Thumbs Up!

Order & Get This Solution Within 3 Hours in $25/Page

Custom Original Solution And Get A+ Grades

  • 100% Plagiarism Free
  • Proper APA/MLA/Harvard Referencing
  • Delivery in 3 Hours After Placing Order
  • Free Turnitin Report
  • Unlimited Revisions
  • Privacy Guaranteed

Order & Get This Solution Within 6 Hours in $20/Page

Custom Original Solution And Get A+ Grades

  • 100% Plagiarism Free
  • Proper APA/MLA/Harvard Referencing
  • Delivery in 6 Hours After Placing Order
  • Free Turnitin Report
  • Unlimited Revisions
  • Privacy Guaranteed

Order & Get This Solution Within 12 Hours in $15/Page

Custom Original Solution And Get A+ Grades

  • 100% Plagiarism Free
  • Proper APA/MLA/Harvard Referencing
  • Delivery in 12 Hours After Placing Order
  • Free Turnitin Report
  • Unlimited Revisions
  • Privacy Guaranteed

6 writers have sent their proposals to do this homework:

University Coursework Help
Helping Hand
Top Essay Tutor
Writer Writer Name Offer Chat
University Coursework Help

ONLINE

University Coursework Help

Hi dear, I am ready to do your homework in a reasonable price.

$142 Chat With Writer
Helping Hand

ONLINE

Helping Hand

I am an Academic writer with 10 years of experience. As an Academic writer, my aim is to generate unique content without Plagiarism as per the client’s requirements.

$140 Chat With Writer
Top Essay Tutor

ONLINE

Top Essay Tutor

I have more than 12 years of experience in managing online classes, exams, and quizzes on different websites like; Connect, McGraw-Hill, and Blackboard. I always provide a guarantee to my clients for their grades.

$145 Chat With Writer

Let our expert academic writers to help you in achieving a+ grades in your homework, assignment, quiz or exam.

Similar Homework Questions

Infant observation repCHILD OBSERVATION ASSIGNMENT REPORT Summer 2019 CHILD OBSERVTION REPORT DESCRIPTION: will write two separate child Observation Reports to fulfill these assignments involving observing a child of different ages (an infant OR toddler age and an early childhood OR a school-age child) and will then use the child observation notes as a basis for writing a report about the child’s development in the domains. Each report is worth 65 points. It is a course requirement that students complete both observation reports. If a student does not pass in the Observation Reports the notes will not be graded for credit. If a student does not pass in both observations any extra credit points will not be graded as part of the final grade. Students should use the Child Observation Grading Report Form for the report. Do not make your own form or copy/change the form in any way. Do not pass in a grading form that you have made a PDF document. FINAL CHILD OBSERVATION ort example - Assignment - Zero plagiarism - Professional issue - Greasy lake thesis statement - Discussion - 7,8 and 9 ass - What allusion is made in the first paragraph of balboa - General electric medical systems case study - Homework Question - Peg boggs character analysis - Scheme of analysis of simple salts - Http www davidbordwell net blog - Electric field mapping lab report conclusion - Themes for the tempest - Online learning centre learnupon - Greater good analysis - Hernandez Family Assessment - Beck's theory of postpartum depression - Kevin bridges meets chad hogan - Waste management dividend growth rate - Paradox in macbeth act 2 - I need 850 words on Strategic Marketing Plan for British Airways - Amazon debt to equity ratio 2016 - Spencers led beer pong table - On the waterfront characters - Key scenes in hamlet - The evolution of animal diversity chapter 18 worksheet answers - Internet cafe franchise in south africa - Sample sop for international business management - Synthesis of research on homework - Budleigh salterton medical centre - Asbestos removal control plan - Http www treasurydirect gov indiv tools tools_savingsbondcalc htm - Criminal scene evidence - Hollingworth primary school calendar - National american university class action lawsuit - The global pharmaceutical industry case study - Experiment 1: enzymes in food - Advertising Assignment II (Two-Part Assignment) PLEASE READ!!! - Why is it important to listen to your teacher essay - Bca sound insulation requirements - Snhu online bookstore at mbs direct - Ramblin rose meets jamestown quilt pattern - Forest development the indian way pdf - Www housingpathways nsw gov au forms - When was the fall of the house of usher written - Conservation of mechanical energy lab answers - 40nm to foot pounds - 2.3. Discussion: Borland Case Casting Light and Shadows - Should phones be banned in school essay - Information server 11.7 system requirements - GOVT 480 DB FORUM 2 THREAD DUE 9/04/2020 - Evacal d3 side effects - Posted Below - 2 page - Talking electronics pic projects - 20 in japanese hiragana - 180 bourke road umina beach - Feast watson liming white - Compare and contrast suspensions and colloids - Nouns ending in i - Fresenius kabi infusion pump user manual - Combustion of sugar experiment - Hillclimbing and simulated anealing algorithms - Reflection Paper Information security & Risk Management ISOL-533 - 4 hours - GHF A5 - What is the approximate molar mass of lauryl alcohol - Why does sam elliot tilt his head - Physics 151 csulb - Warwick university it services - What kind of symmetry does a hydra have - Bipolar disorder - Characteristics of payment system ppt - Catering theory - Week 6 lab summit ridge mountain resort student - Ethica and Legal Aspects of Nursing Practice . week 4 DQ # 6 - Professional Accountability, Standards of Practice, and Professional Development - Security Awareness Training Program - Steve jobs one last thing online - Economic 2 - Ability to work unsupervised selection criteria examples - Consumer behavior by hoyer macinnis & pieters - What departmentalization bases are likely being used at hp - Japan Automobiles - Draw an angle with the given measure in standard position - Accounting - Rossendale pet crematorium and memorial gardens - What is objective data in nursing - Match each character type in robert merton’s strain theory of deviance to its definition. - Python coding help - Six sigma project charter ppt - Vicroads side entry pit - Unsuccessful job application thank you letter - Marketing communication plan for coca cola - Financing s&s air's expansion plans with a bond issue - SOCW 6361 - Contrast distributive and integrative bargaining - Math Hw - Religion in Asia - Sentence starters for reflection - What are five recommended steps to make ethical decisions