UNFIGURE 0.1.. FIGURE 1.1. Dimensions of some example cells. 1 mm = 10 −3 m; 1 µm = 10 −6 m; 1...

Tags:

Preview:

Click to see full reader

Citation preview

UNFIGURE 0.1.

FIGURE 1.1. Dimensions of some example cells. 1 mm = 10−3 m; 1 µm = 10−6 m;1 nm = 10−9 m.

FIGURE 1.2. Cell structure as seen through the light and transmission electron microscopes.

FIGURE 1.3. Basic design of light and electron microscopes.

FIGURE 1.4. A simple upright light microscope.

FIGURE 1.5. Human blood cells viewed by bright-field (A) and phasecontrast(B) light microscopy. Thin extensions of the white blood cell are clear in the phase contrast image but invisible in the bright field image. (C) and (D) are phase contrast images acquired 2 and 5 minutes after addition of a formyl methionine peptide (see page 128). The white blood cell is activated and begins crawling to the right.

FIGURE 1.6. Preparation of tissue for electron microscopy.

UNFIGURE 1.1.

FIGURE 1.7. Transmission electron micrograph of a capillary blood vessel running between heart muscle cells. Image by Giorgio Gabella, Department of Cell and Developmental Biology, University College London. Reproduced by permission.

FIGURE 1.8. Scanning electron micrograph of airway epithelium. Image by Giorgio Gabella, Department of Cell and Developmental Biology, University College London. Reproduced by permission.

FIGURE 1.9. Organization of prokaryotic and eukaryotic cells.

FIGURE 1.10. The tree of life. The diagram shows the currently accepted view ofhow the different types of organism arose from a common ancestor. Many minor groups have been omitted. Distance up the page should not be taken as indicating complexity or how ‘‘advanced’’ the organisms are. All organisms living today represent lineages that have had the same amount of time to evolve and change from the last universal common ancestor.

FIGURE 1.11. Different types of animal cells.

FIGURE 1.12. Tissues and structures of the intestine wall.

UNFIGURE 1.2.

Recommended

LE 01-10b - Los Angeles Mission College Cells 2. Intracellular Structures 3. The Cytoskeleton 4. Extracellular Structures 1. Studying Cells 10 m 1 m 0.1 m 1 cm 1 mm 100 µm 10 µm
Documents
IB Physics - scienceslycee.fr · ABBOU IB PHYSICS 6 4. Scientific notation and metric multipliers Scientific notation: 112 m = 1.12 * 102 m 0.00234 µm = 2.34 * 10-3 µm Metric multipliers
Documents
Part B Whisker Formation on Tin Plated FeNi42 Results and ... · 10 0 100 200 300 400 500 600 700 time in days max. whisker length in µm 3,7 µm Sn 6,6 µm Sn 9,5 µm Sn 11,7 µm
Documents
Merkel Omegat OMK-E - seal-directSliding surface 0,05 … 0,3 µm ≤2,5 µm Groove base ≤1,6 µm ≤6,3 µm Groove flanks ≤3,0 µm ≤15,0 µm Percentage contact area M r >50%
Documents
180919 stoba Vertreterpräsentation ENFilter sizes 1. Stage 2. Stage Chamber 1 10 µm --Chamber 2 10 µm --Chamber 3 1 µm 5 µm Chamber 4 1 µm 5 µm Filter unit Absolute filter
Documents
Photonics Integration for Computing Applications · 144 x 10+ Gbps 21 x 10 Gbps 17.5 mm x 13.5 mm ERNI 1 m cable differential striplines 2 x 10 Gbps 80x17 µm tracks @ 460 µm pitch
Documents
Wie konstruiert man ein Sonnenteleskop?€¦ · • Desired resolution at 550 nm : 0.1 arcsec – D = 1.4 m • Pixel size = 10 µm – image scale = 0.1 arcsec/20 µm = 5 arcsec/mm
Documents
The Diversity of Viruses, Bacteria, and Fungi. Eukaryotic cells (10–100 µm) Prokaryotic cells (0.2–10 µm) cyanobacterium Viruses (0.05–0.2 µm) Escherichia
Documents
Ultra-Reined Universal Cutter - Sumitomo · 2020. 10. 7. · Ra = 0,5 µm, Rz = 3,3 µm Ra = 1,2 µm, Rz = 5,1 µm (µm) ae ap WEZ l = l = "WaveMill" Series WEZ Type Light cut, low
Documents
Fig. 6-2 10 m 1 m 0.1 m 1 cm 1 mm 100 µm 10 µm 1 µm 100 nm 10 nm 1 nm 0.1 nm Atoms Small molecules Lipids Proteins Ribosomes Viruses Smallest bacteria
Documents
Nanophotonics - AMOLF€¦ · About length scales 4 1 m you and your labtable 100 µm thickness of a hair 10 µm smallest you can see 1 µm size of a cell 300 nm smallest you can
Documents
C190-E206A Shim-pack HPLC Column Guidebook4 5 1.6 µm, 2.2 µm 1.9 µm, 2 µm, 2.2 µm, 3 µm ≥ 3 µm 5 µm, 10 µm 15 µm Analytical Columns High-Speed Analysis Conventional Analysis
Documents
Wir kalibrieren Prüfmittel - Melutec · Rundheit U = 0,1 µm + 2,5 · 10-2 RONt Einstellringe und Einstelldorne Durchmesser U = 0,1 µm + 1 · 10-6 · d Rundheit U = 0,1 µm + 2,5
Documents
HHHEEE UUNUNNDDDAAAMMMEEENNNTTTAAALLL UUU … QB GR 9.pdf · THE FUNDAMENTAL UNIT OF LIFE 37 26. 1 µm is (a) 10–6 m (b) 10–9 m (c) 10–10 m (d) 10–3 m 27. Lysosome arises
Documents
MSR 20, MSR 40file.yizimg.com/427072/2013080211172726.pdf · MSR 20.04 40 µm - 10 m/s 50 kHz • Square wave signals via Line Driver with integrated subdividing MSR 20.64 40 µm
Documents
Cell Biologynucleus and many organelles - all cells of plants, animals, fungi, and protists. 3 Most cells are small Prokaryotic: 1-10 µm Eukaryotic: 10 - 100 µm (1 µm = .001 mm)
Documents
Features - KF Technology: life science tools...MED-P530A 10 mm 50 x 50 µm 300 µm 9.2 mm MED-P5455 5 mm 50 x 50 µm 450 µm 10.2 mm MED-P545A 10 mm 50 x 50 µm 450 µm 10.2 mm Close-up
Documents
Picot13,183-206,24pgs 8/17/04 11:01 AM Page 183 · Retinoic acid 5 × 10–8 M Sigma-Aldrich R2625 Phosphorylethanolamine 0.5 µM Sigma-Aldrich P0503 Ethanolamine 0.5 µM Sigma-Aldrich
Documents
Teatro 11 10 16 00 Arthur Burnett Subs Trinity Bivalacqua · • Strong presence of Schawnn cells Sham BCNI BCNI+Y-27632. 223.52 µm 275.35 µm 314.11 µm 179.21 µm 185.25 µm Incubation
Documents
Future nanoelectronic device technologies - high-k ... · 10-3 10-2 10-1 100 101 102 1970 1980 1990 2000 M P U L X g (µ m) j (µ m) Minimum logic Vdd (V) Id/µm (mA/µm) t o x (µ
Documents