Microscopes and Basic Measurement

Slides:

Advertisements

Similar presentations

Advertisements

Microscopes and Basic Measurement How are they used to study the living environment?

Honors Biology.  Mathematical Model: Total Magnification = Ocular Lens magnification x Objective Lens magnification  Sheila has an ocular lens with.

Microscopic Measurement Q: How do you measure the size of a microscopic specimen? A: You will get a close estimation using the following technique…

MICROSCOPES. Microscope Quiz Friday –Jan. 28 n Label parts of microscope n How to use (ex: use coarse knob to find object, adjust diaphragm for light)

VIEWING CELLS: USING THE COMPOUND LIGHT MICROSCOPE & STAINS

 The reliability of analytical data generated from chemical and physical analyses is critically dependent on three factors: 1. Validity of the analytical.

Microscope Measurement

Introduction to Microscopy

Microscope Review.

The Microscope.

Microscopes Magnification, Field of View and Estimating Size.

Aim #8: The microscope, an instrument in scientific investigation Do Now: If you haven’t handed in the graphing lab, do so now. Homework: Microscope WS.

Making Measurements with a Light Microscope. Metric Conversions 1 mm = 1000 μm 1 μm = 1/1000 mm.

MICROSCOPE. Parts of the Microscope a.Eyepiece b.Coarse Adjustment c.Fine Adjustment d.Objectives (LP, HP) e.Arm f.Stage g.Light source h.Base i.Diaphragm.

Vocabulary Review Microscopes.

Do Now: Your digestive system uses many different enzymes to digest food. Pepsin is an enzyme in your body that breaks down proteins in food that you eat.

Types of Microscopes Simple Microscope - contains only one lens. ex. magnifying glass Compound Light Microscope - a system of two lens that work together.

Using the Microscope.

What invention helped with many discoveries in science? Agenda for Friday Sept 18 th 1.Microscope notes 2.Microscope lab.

Biological Drawings and Microscope Calculations Examining Protists.

Date: September 24, 2015 (double periods) Aim #8: How do scientists make detailed observations? HW: 1) Complete Article Review (Measuring Horses) 2) Textbook.

What invention helped with many discoveries in science?

Basic Laboratory Skills: Making Microscopic Measurements : Lab 2d

Microscope Calculations

THE COMPOUND LIGHT MICROSCOPE. USING THE COMPOUND LIGHT MICROSCOPE WET MOUNT REVIEW MOVING THE SLIDE LETTER INVERSION DEPTH OF FIELD MAGNIFICATION EYEPIECE.

Microscope Instrument used to make very small objects appear larger.

Parts of a Light Microscope

Microscope Basics.

What invention helped with many discoveries in science? Agenda for Thursday Sept 8 th 1.Microscopes 2.Lab Learning Objectives Identify microscope parts.

Tools of the Biologist- Name That Tool!

Magnification, Working Distance, Resolution and Field of View.

Specimens are measured in microns (µm)! 1 millimeter = 1000 microns (micro meters) If this caterpillar is 20mm long, how many microns is it? (20mm)(1000)

Microscope Math Biology 11.

Optical microscope Optical microscopes are compound microscopes ▫Occular lens ▫Optical lens Light passes through the specimen. Different areas absorb different.

Microscope Review.

Directed Reading: “Looking at Cells”

Measurement with the Microscope

Magnification and Size

WarmUp 8/31/09 – Copy and answer in notebook

Using a Microscope Question Student Name Date

Do Now(1) How many: Cm in 4 meters? Decimeters in 5 meters?

Microscopy : microscope Microscopy : Investigation by means of a microscope.

Microscope Review.

Aim #11: How do scientists make measurements with a microscope?

Describe how the letter e appeared in the microscope

Parts of a Light Microscope

The Microscope.

Microscope Measurement

Important Unit for Microscopes

The Microscope.

Do Now: Plant Animal

Using A Compound Light Microscope

Measuring with a Microscope

A student, observing a micro-organism under a magnification of 40X, calculates that it is about 100 micrometers long. If she then draws the microorganism.

Do Now(1) How many: Cm in 4 meters? Decimeters in 5 meters?

Microscope measurement

Microscopes and Basic Measurement

Cells and Microscopes.

Describe how the letter e appeared in the microscope

A student, observing a micro-organism under a magnification of 40X, calculates that it is about 100 micrometers long. If she then draws the microorganism.

Cells are studied by a combination of methods

Aim: How do instruments and techniques help science

Presentation transcript:

Microscopes and Basic Measurement How are they used to study the living environment?

Magnification How much can you enlarge the image? Ex: 100x = 100 times as big

Finding Total Magnification Multiply strengths of two lenses you are using. Ocular lens x Objective lens Ex: Ocular = 10x High Power Objective= 45x Total Magnification = (10 x 45) = 450x

Practice Find Total Magnification: Ocular 2x, Objective 30x = If Ocular is 10x and Total mag. = 350x What is the strength of the objective lens?

Note: As you increase magnification you need to let in more light to see your specimen (adjust diaphragm)

Resolution How sharp can you get the image? Ability of microscope to distinguish two objects as being separate (ex: one cell from another)

What Happens to Image? Compound Microscopes: Image becomes inverted and upside down

What Happens to Image? When you increase magnification Object appears larger Field of view gets smaller

Finding Field of View (F.O.V) Under Low Power: Use millimeter ruler Ex: 1.5mm Convert to micrometers 1 mm = 1000 micrometers So 1.5 mm = 1,500 micrometers (Move decimal over 3 to right)

Finding Field of View (F.O.V) Under Medium or High Power Need to set up a proportion Remember!! As magnification increases FOV decreases

Low power Magnification = High power FOV High power Magnification Low power FOV Ex: 100x = HP FOV 500x 1500 micrometers 500x = 150000 HP FOV = 300 micrometers

Determining the Size of an Object Under a Microscope

View and draw object on low power Estimate how many objects would fit across diameter of field of view

Divide the diameter of FOV by the number of objects that can fit across it. Ex: Three letter “e”s fit across FOV of 1800 micrometers Each letter is about 600 micrometers 1800 micrometers = 600 µm 3 letter “e”