Key Concepts in Biology
Cards (118)
- CellsThe basic building blocks of life that can replicate independently
- Multicellular organisms like animals and plants contain many cells that divide to grow or replace dead cells, not to create new organisms</b>
- Bacteria are single-celled prokaryotic organisms
- Subcellular structures common to animal and plant cells
- Cell membrane
- Nucleus
- Cytoplasm
- Mitochondria
- Ribosomes
- Plant cells
- Have a rigid cell wall made of cellulose
- Contain a permanent vacuole with cell sap
- Contain chloroplasts for photosynthesis
- Bacterial cells
- Lack mitochondria and chloroplasts
- Have a single circular strand of DNA instead of a nucleus
- May have additional plasmids
- May have flagella for movement
- Photosynthesis occurs in the chloroplasts of plant cells, using chlorophyll to absorb light energy
- Aerobic respiration in mitochondria releases energy for cells
- NanometersSmallest unit of length you need to know
- Units of length
- Nanometers
- Micrometers
- Millimeters
- Meters
- Kilometers
- Each unit is 1,000 times bigger or smaller than the one next to it
- Converting between units of length1. Divide by 1,000 to convert to a larger unit2. Multiply by 1,000 to convert to a smaller unit
- To convert between non-adjacent units, convert in steps
- Naked eye can see down to 100 micrometers
- Light microscope can see down to 500 nanometers
- Electron microscope can see down to 0.1 nanometers
- Centimeters10 millimeters, 100 centimeters in a meter
- Converting centimeters1. Divide by 100 to get meters2. Multiply by 10 to get millimeters
- MicroscopyThe use of microscopes
- How light microscopes work1. Light from the room hits the mirror2. Light reflected upwards through the object3. Light passes through the objective lens4. Light passes through the eyepiece lens5. Light enters the eye
- ObjectThe real object or sample that you're looking at
- ImageThe image that we see when we look down the microscope
- MagnificationHow many times larger the image is than the object
- Magnification = image size / object size
- ResolutionThe shortest distance between two points on an object that can still be distinguished as two separate entities
- Higher resolutionMore details can be seen, less blurry the image
- MicroscopyThe use of microscopes
- How light microscopes work1. Light from the room hits the mirror2. Light reflected upwards through the object3. Light passes through the objective lens4. Light passes through the eyepiece lens5. Light enters the eye
- ObjectThe real object or sample that you're looking at
- ImageThe image that we see when we look down the microscope
- MagnificationHow many times larger the image is than the object
- Magnification = image size / object size
- ResolutionThe shortest distance between two points on an object that can still be distinguished as two separate entities
- Higher resolutionMore details can be seen, less blurry the image
- The images have the same magnification (100x) but different resolutions
- DiffusionThe net movement of particles from an area of higher concentration to an area of lower concentration
- Diffusion1. Molecules move about randomly2. Molecules spread out over time3. Molecules become evenly distributed
- Diffusion can happen in both gases and liquids
- Partially permeable membraneOnly some molecules can diffuse through, like water, glucose, and amino acids. Larger molecules like proteins and starch cannot fit through.
- Diffusion is a passive process that does not require energy from the cell
- Factors affecting rate of diffusion
- Concentration gradient
- Temperature
- Surface area
- Concentration gradientThe difference in concentration between two places