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Biology Biology Mrs. Schalles
Chapter 1
The Science of LifeMost notes & images in this show from HOLT Biology text unless noted otherwise.
Image from: http://www.le.ac.uk/bl/background2.jpg
Most topics that will be covered in Most topics that will be covered in Biology are introduced in chapter 1Biology are introduced in chapter 1
I. The World of BiologyA. Branches of BiologyB. 7 Characteristics of Living Things
II. 3 Themes in BiologyA. Unity of life’s: Genetic Code & Classification
B. Interdependence: Environment & Ecology C. Evolution: Darwin, Natural Selection, Adaptations
III. Scientific Method
IV. Tools & Techniques: Microscopes & Other tools
BiologyBiology- the study of living things
Biologists study life on many levels- from molecular to global.
We are beginning to solve puzzles- how does a single cell grow into a multicellular plant or animal, how the human mind works, how solar energy is converted into chemical
energy- food, how organisms network in biological communities like coral reefs, what threatens life
I. The World of BiologyI. The World of BiologyA. Definitions
1. Biology- the study of life“bio” means “life,“-logy” means the study of.
2. The branches of Biology-something in the vast field of biology interests you &
is important to your life. -Biologists study the food supply, microorganisms,
plants, health, ecology, biochemistry & more.We’ll look at some of the many fields of biology.
Branches of BiologyBranches of Biology• Anatomy- study of body parts• Botany- study of plants• Bacteriology- study of bacteria• Cytology- study of cells• Ecology – study of environment• Embryology- study of development of
individuals• Entomology- study of insects• Horticulture-study of growing • Immunology- study of immune system
• Genetics – study of genes & heredity
• Hematology- study of blood
• Herpetology- study of snakes
• Microbiology – study of microorganisms
• Mycology- study of fungi
• Pathology- study of abnormal structures or functions
• Parasitology – study of parasites
• Paleontology- study of formerly-living organisms like fossils and dinosaurs
• Physiology-study of body part functions
• Taxonomy- study of classification
• Virology- study of viruses
• Zoology -The study of animals
3. OrganismOrganism- a living thing• Oldest fossil of a living organism- over
3.5 billion years old
• Earliest Life on Earth-For millions of years- only characteristics - unicellular, aquatic, microscopic,
simple, anaerobic
(cannot live in oxygen)
B. 7 Characteristics of B. 7 Characteristics of Living ThingsLiving Things
1. Organization/ Cell theory1. Organization/ Cell theory2. Response to stimuli2. Response to stimuli
3. Homeostasis3. Homeostasis4. Metabolism4. Metabolism
5. Growth & Development5. Growth & Development6. Reproduction6. Reproduction
7. Evolution7. Evolution
1. Organization/ Cell theory1. Organization/ Cell theoryCell Theory – the theory that all living things
- are made up of one or more cells,1. Cells are the basic units of organisms2. In a multicellular organism - cells specialized!3. Cells come only from existing cells.
Unicellular (single celled organism)
Multicellular (many celled organism)
-A cell is the smallest unit that can perform all life’s processes.
Prokaryotic & Eukaryotic cells
OrganizationOrganization -is the high degree of order within an organism’s internal & external parts & its interactions with the world.
Hierarchy of organization of living things• Atom
• Organic Molecule• Organelle
• Cell • Tissue • Organ
• Organism
**See pages 6-7 of your textbook
““Emergent Properties”Emergent Properties” • In the levels of the “hierarchy” there are
new characteristics that are not apparent at a simpler level:
• Atom-Molecule-Organelle-Cell-Tissue-Organ-Organism
““A living organism is a whole A living organism is a whole greater than the sum of its partsgreater than the sum of its parts .”.”
(cannot fully explain a higher level of order by breaking it down into its parts)
Cells are made of parts:Cells are made of parts:• Atoms: Carbon (C), Nitrogen (N), Oxygen (O),
Hydrogen (H), etc
• Molecules -made of atoms: water- H20, Sugars like Glucose (C6H12O6), & large Proteins like Hemoglobin, C738H1166N812O203S2Fe (amino
acids with a Fe ion) Phospholipids, DNA, etc
• Organelles -made of molecules: Nucleus, Cell membrane, Chloroplast, Mitochondria, Ribosomes, etc.
Atom-Molecule-Organelle-Cell-Atom-Molecule-Organelle-Cell-Tissue-Organ-OrganismTissue-Organ-Organism
http://orchard.sbschools.net/library/links/body.jpg
health.yahoo.com health.yahoo.com
Health.yahoo.comwww.mie.utoronto.ca
web.jjay.cuny.edu www.search.com www.scienceaid.co.uk www.answers.com
2. Response to Stimuli2. Response to Stimuli• Stimulus-
– a physical or chemical change in the internal or external environment.
– that elicits or accelerates a physiological or psychological activity or response.
• Response-– Reaction to stimulus agent or
action – For example: The owl dilates pupils in
the eye to keep the level of light entering the constant.
www.birds.cornell.edu
ebiomedia.com
7 Characteristics of Living Things
3. Homeostasis3. Homeostasis--The ability or tendency of an organism or cell
to maintain stable internal conditions (equilibrium )by adjusting its physiological processes.
-conditions such as: temperature, pH, water content, uptake of nutrients by cells, etc. will be maintained in a constant range- usually different than outside environment.
B. 7 Characteristics of Living Things
Homeostasis Questions:Homeostasis Questions:What would happen if:
-an amoeba could not maintain a different internal amount of water than it’s surroundings? *It would explode with too much water
*It would shrivel up without enough water
-what if a desert mouse could not maintain a different internal temperature than the environment?
* freeze to death in cold night air* bake in the daytime heat.
Quick Lab- page 8Observing Homeostasis in Goldfish
• Read through the lab explanation.• I will select the lab groups.• Do not abuse the fish.• Be very careful with the glass thermometers; be
sure the temperature is the same as the labeled beaker. Do not kill the fish. Wipe up any spills.
• Each person will hand-write a brief lab report (*see lab report format- no cover page or references needed)
• Answer the 3 questions in the analysis section.
fish.dnr.cornell.edu
Quick Lab Results:• Gills are a respiratory structure that consists of many
blood vessels surrounded by a membrane that allows for gas exchange.
• It is protected by a hard plate called the operculum.• The gills will move faster at higher temperatures.• There is less dissolved oxygen in warmer water.• The fish is taking in more water & therefore more
oxygen.• The rate at which the gills move affects the amount
of oxygen- the amount of dissolved gas in the fish blood. This maintains homeostasis.
4. Metabolism4. Metabolism–is the sum of all the chemical
reactions that take in and transform energy and materials from the environment.
B. 7 Characteristics of Living Things
5. Growth and Development5. Growth and Development
–Growth of living things results from the division & enlargement of cells.
–Development is the process by which an organism becomes a mature adult.
B. 7 Characteristics of Living Things
6. Reproduction6. Reproduction
• life must have ability to reproduce, no organism lives forever.
• Living organisms pass on hereditary information from parents to offspring.
B. 7 Characteristics of Living Things
1. Asexual Reproduction-one parent divides into 2 identical offspring- EXAMPLES– Binary fission -bacteria– Budding -sponges -fungi like yeasts– Regeneration- earthwormsAdvantage- don’t need mate; Disadvantage- no genetic variations
2. Sexual Reproduction- 2 parents combine genetic info to form a unique individual
-Egg of a female & sperm of a male form a ZYGOTEZYGOTE-- info from both parents
2 Types of Reproduction
Cell Reproduction: Cell Reproduction: Mitosis & MeiosisMitosis & Meiosis
There are 2 kinds of cell division in eukaryotic cells:
• Mitosis occurs in cells for growth, development, repair or asexual reproduction.
• Meiosis occurs during formation of gametes for sexual reproduction
www.ccs.k12.in.us/.../Humanembryology.htm
ReproductionReproduction
An interesting organism: Volvox • Common colonial algae • Reproduces- asexually & sexually!
• Asexual- 1 parent cell simply splits
into 2 identical “daughter” cells
• Sexual reproduction: The dark spheres are egg
-cells. They are fertilized
by small packages of sperm.
Reproduction & InheritanceReproduction & InheritanceSome important terms:• DNA molecule-
– deoxyribonucleic acid– has “how to” info
• Gene- a segment on DNA macromolecule
- may be 100s of genes on a DNA strand
- codes for a specific trait (like eye color)
• Inheritance - traits passed from parent to offspring
7. Change over Time7. Change over Time (Evolution)(Evolution)
– Populations of living organisms evolve or change through time.
--EvolutionEvolution- from “evolve” meaning to
change.
B. 7 Characteristics of Living Things
II. 3 Themes in Biology
A.A. Unity of life’s DiversityUnity of life’s Diversity
-Life is diverse yet shares unity in molecules -DNA & genetic code
B.B. Interdependence of OrganismsInterdependence of Organisms-organisms interact with biotic & abiotic
factors
C. EvolutionC. Evolution - theory that organisms change over time, the driving force is the environment.
DNADNA
The Genetic code
- all life has hereditary information in DNADNA
–DNA molecules DNA molecules (Deoxyribonucleic acid)(Deoxyribonucleic acid)
--Double helixDouble helix - - shape is formed by nitrogenous base pairs attached to a sugar-phosphate backbone.
““Unity of Life’s Diversity”Unity of Life’s Diversity”
• Taxonomy: the classification of organisms
• Tree of Life: shows that all living things have descended with
modification from a single common ancestor
Phylogenic TreePhylogenic Tree• Shows relationships: • between 3 Domains & 6 Kingdoms
Taxonomic Classification:Taxonomic Classification:
• 3 domains: Bacteria, Archaea, and Eukarya.
• 6 Kingdoms: Archaea, Bacteria, Protista, Fungi, Plantae, and Animalia.
• Further divided into smaller Taxonomic groups:– phyla – class – order – family – genus
– species
3 Domains3 Domains1. Archaea -Prokaryotic cells (unicellular)
-little understood, recently discovered life-probably oldest cells & found in extreme environments
KINGDOM– Archaea
2. Bacteria = Prokaryotic cells (unicellular)-all the common bacteria, both good & bad -KINGDOM—Bacteria
3. Eukarya = Eukaryotic cells (have a nucleus)
There are four kingdoms in Eukarya* Protista* Fungi* Plantae * Animalia
6 Kingdoms- examples
Archaea, Bacteria, Protista,
Fungi, Plantae, Animalia.www.ucmp.berkeley.edu www.dph.state.ct.us www.microscopy-uk.org.uk
danny.oz.au usmo4.discoverlife.org usuarios.lycos.es www.wetwebmedia.com
B. B. InterdependenceInterdependence• Ecology- How organisms interact with both
other organisms & the environment.
1. Biotic Factors – living organisms
2. Abiotic Factors - non-living part of the environment (water, temperature, soil type,etc)
3. Ecosystems- Communities of different living species (Biotic factors)& interact with each other & their non-living environment (Abiotic factors).
II. 3 Themes in Biology
EcologyEcology
• Is the study of how organisms interactwith each other and their physical environment.
• Environment – everything- biotic & abiotic- surrounding an organism
In ecology we will study:In ecology we will study:
• Trophic levels in the food chain• The Biosphere • Population growth, limiting factors• Species interactions: Predation,
competition, parasitism, Mutualism & Commensalism
• Successional changes in communities• Major Biomes of the world• Use of resources, pollution • Watershed & Wetlands
Energy RelationshipsEnergy Relationships -study how organisms get, use & transfer energy
• Sun- Source of almost all energy• Autotrophs- Organisms that make their
own energy (food) (photosynthesis)
• Heterotrophs – Organisms that obtain energy by eating other organisms
Food Chain & Food web in an Antarctic Ecosystem
All food chains must start with a producer (autotroph)!!!
What is the difference between a food chain & a food web?
Note numbers of organisms:
Chart: many times more producers than large carnivores
BIOSPHEREBIOSPHERE• the thin layer of Earth’s crust, atmosphere
& ocean layers that supports LIFELIFE • includes:
– All plant and animal life – Air, soil and water. – A variety of ecosystems that
As far as we know so far - we are the only life in the universe…
Earth Age:Earth Age: About 4.5 Billion Years Old
Location:Location: In the Solar System, on the outer edge of the Milky Way, about 28,000 light years
from the galactic center
Are we alone?
Life in the Biosphere- 3 parts:Life in the Biosphere- 3 parts:• ATMOSPHEREATMOSPHERE – light blanket of air enveloping
the earth, with more than half its mass within 4 miles of the surface and 98% within 16 miles
• HYDROSPHEREHYDROSPHERE --- the surface & subsurface waters in oceans, rivers, lakes, glaciers, groundwater
• LITHOSPHERELITHOSPHERE --- upper earth's crust containing the soils that support plant life, the minerals that plants and animals require for life and the fossil fuels and ores that humans exploit.
• Surface Data:
• 70% of earth is covered by water
• Remaining 30% - 7 7 continental land massescontinental land masses.. • Water Composition: • 97% salt water, • 3% fresh water
– 2% glaciers/ice – only.3% usable!
Hydrosphere:Hydrosphere:
Atmosphere:Atmosphere:• Air Composition:
– 78% nitrogen, – 21% oxygen, – 1% other
• Atmosphere Layers:
– Trophosphere– Stratosphere– Mesosphere– Thermosphere– Exosphere
Lithosphere-Lithosphere-
• Includes the crust, is very thin• Fragmented into tectonic plates which move.• Plate movement is called plate tectonicsplate tectonics..
Earth Layers:Earth Layers:Inner core- solidOuter core- liquidMantle- solidAsthenosphere- molten like playdoughLithosphere- solid
Ecology Levels of OrganizationEcology Levels of Organization
• ORGANISM -Simplest Level (1 living thing)
• POPULATION- All the members of the same species - that live in one place at a given time & make-up a breeding group.
• COMMUNITY- Includes all the interacting
populations in one area.
• ECOSYSTEM- Includes all the living (biotic) &
non-living (abiotic) factors in the environment.
• BIOSPHERE- Thin layer of life around earth.
Levels of Organization
A Changing EnvironmentA Changing Environment
• Abiotic Factors Abiotic Factors do not remaindo not remain constant constant• Organisms able to survive a range of conditions,
both natural cycles & manmade change• Most individuals can survive average conditions
Environmental Concerns-what are causes of pollution & where does it end up?
WatershedsWatersheds
• A watershed is the area of land where all of the water that is under it or drains off of it goes into the same place.
Watersheds come in all shapes and sizes.
• They cross county, state, and national boundaries. No matter where you are, you're in a watershed!
• In southwestern PA- our water drains first in to small creeks, then into the Monongahela river, then into the Ohio River & then the Mississippi River & ultimately the Gulf of Mexico.
Mississippi Watershed
Pollution that is added to water upstream will end up thousands
of miles away.
• Oil dripping from you car
• Salt & chemicals on the roadways
• Pesticides sprayed on your grass
• Cleaners washed down your sink drain
• Garbage dumped into the environment
Toxic dischargeToxic discharge
Scientists in Oregon & Washington States speculated that water discharged from a lake pumped almost dry by farmers hascontributed to the toxic blue-green algae bloom that killed fish in this river. Dead blue gills, carp and frogs were readily visible in the water, which flows directly to the Tualatin River.
• Algae blooms -from pollution • Stagnant water
– from building dams or other construction– cause growth of micro-organisms that use up all the
oxygen & build up of undesirable chemicals, especially nutrients and heavy metals.
• Also- Artificially warm water from industrial use
• Remember: Warm water holds less oxygen than cool water
More fish die from a More fish die from a lack of lack of oxygenoxygen than any other cause than any other cause
Pennsylvania Fishes• Note natural environments/ oxygen needs for local fish:
•http://sites.state.pa.us/PA_Exec/Fish_Boat/pafish/fishhtms/chapindx.htm
• a volume that rapidly overflows local dumps.
Municipal Solid Waste:Municipal Solid Waste: An average person may
produce a ton of refuse in a year
A Modern Landfill
Problems with LandfillsProblems with Landfills• Full- Many landfills are almost at capacity.
• “NIMBY”- where do we put new landfills???
• Leaks:
–Leachate- a liquid that has formed as water leaks through compacted waste in a landfill.
–Methane Gas -highly explosive, flammable gas formed as organic matter decomposes.
C. EvolutionC. Evolution1. Theory that organisms change over
time, the driving force is the environment.
2. Natural Selection- process by which adaptation is passed on to the next generation for best survival.
3. Adaptations- -are favorable traits-Ex.- cactus plants adapted to desert
(3rd Theme in Biology)
Science & Religion-Science & Religion- in answer to your questions:
• Occasionally, the media may report on the “conflict” between religion & science- implying that one must “choose” – or that science has “replaced” religion.
• For most there is no conflict! Many famous scientists were Christians who used their Judeo-Christian belief in a rational God as the foundation for their study.
• Even Evolution is NOT contrary to personal faith.
Charles Darwin-
• English naturalist who presented compelling evidence that all species of life have evolved over time from common ancestors, through the process he called natural selection.
http://oreh.pef.uni-lj.si/~markor/Darwin/Charles_Darwin.jpg
Darwin’s trip around the world on the H.M.S.Beagle, especially the stops in
South America & the Galapagos Islands were the basis for his work.
Darwin saw unusual things on his voyage & tried to explain them:
• Strange Fossils
• Large tortoises
• Many kinds of beaks on finches
http://www.thisviewoflife.org/evolution/finch.jpg
www.break-fresh-ground.com
Summary: 4 Main Parts of Summary: 4 Main Parts of Darwin’s ReasoningDarwin’s Reasoning
• 1. Overproduction- more offspring are produced than can survive
• 2. Genetic Variation- within a population, individuals have different traits
• 3. Struggle to Survive- individuals must compete with each other to exist.
• 4. Differential Reproduction- Organisms with the best adaptations to environment more likely to survive & reproduce.
Chapter 15
Natural Selection
4 Main Parts of Darwin’s Reasoning4 Main Parts of Darwin’s Reasoning
A simple example of Natural SelectionNatural Selection
- tiny fish may be able to hide under rocks and not get eaten by a predator
- next generation has fewer large fish, “nature” has selected for smaller fish in that pond
Terms about Structure & Function
• MorphologyMorphology – the structure and form of an organism
• AnatomyAnatomy – the branch of morphology that deals with internal structure
Structure is almost always related to function.Example- Bird beaks- shape shows how it gets food
Biology Terms: Extra Info that you will need to know
Science & SocietyScience & Society• Applied Science- knowledge from biological
science can be used to improve human life
• Bioethics – The study of what is right or wrong as it applies to biological concerns.
• Biotechnology- technology based on biology, especially when used in agriculture, food science, and medicine
– genetic engineering, & DNA Technology- making new forms of life by transferring genes from one organism into another- like inserting gene for enzyme Chymosin -from the stomach of calves into the DNA of both bacteria and yeasts-
Biotechnology:Biotechnology: Genetically engineered cheese
–cheese is now cheaply made - with genetically modified yeast chymosin, (an enzyme which curdles milk, found in calves, who drink milk, but not in normal yeast!)
Genetic Medical ApplicationsGenetic Medical Applications• Making medicine- until recently- medicine had to be
collected from plants or made from chemicals. Now can make body substances like human blood clotting factors, insulin, vaccines & (HGH) HumanGrowthHormone with GM bacteria.
• Making body parts- may be able to clone cells & make new organs so that no rejection occurs. May be able to grow new human liver in another organism like a pig.
• May also be able to screen for diseases, create “designer babies”, cure cancer.
Gene TherapyGene Therapy• Example: replace or repair
faulty gene for cystic fibrosis.• Insert a copy of good gene from
healthy person into virus.• Infect patient’s lungs with virus,
virus delivers good gene. Now patient can make the right protein to stop accumulation of mucus & can breathe normally.
Imagine being this mother of child with CF,Daily you must massage & loose mucus.Any cold could overwhelm & cause death.Now imagine what gene therapy represents.
Examples: Featherless chicken
• a controversial featherless chicken which they say is faster growing.
• will not need to be plucked, saving money in processing plants.
• they would not be suitable for cooler countries,but OK in hot climates
• There was a rumor that KFC uses these already but it is not true.
http://news.bbc.co.uk/1/hi/sci/tech/2000003.stm
Fishy StrawberriesFishy StrawberriesFlounder is a fish that can withstand icy cold temperatures.
Scientists took the gene in the fish thatProduces an antifreeze & inserted it into a plasmid of a bacterium
The bacterium infected the strawberry & the flounder antifreeze gene entered the strawberry’s DNA
The new GM strawberry cells are grown Into new plants that have strawberries which make a protein that keeps the fruit from frost damage. www.usbornequicklinks.com
GM foods- Golden Rice
www.goldenrice.org/
Golden Rice is part of the solution to world hunger & malnutrition.
-Biofortified rice may alleviate life-threatening Biofortified rice may alleviate life-threatening micronutrient deficiencies in developing micronutrient deficiencies in developing
countriescountries-(decrease starvation) -(decrease starvation)
- - Genetically modified- gene for Genetically modified- gene for provitamin A (β-carotene)provitamin A (β-carotene), is inserted is inserted
into rice genomeinto rice genome..
All living things have the same genetic building blocks
DNA- deoxyribonucleic acid has 4 nitrogenous bases which make up the “alphabet” for the genetic code.
SO- the same sequence of DNA (gene) codes for an enzyme, a protein or other molecule no matter which organism that gene is in.
That is the basis for Gene technology
Biotechnology• There is currently much debate among
scientists, politicians & environmentalist about the safety & quality of genetically modified products, especially foods.
• It is very likely that you have already eaten multiple products that were produced with biotechnology and/or DNA technology
III. The Study of BiologyA. The Scientific Method Steps:
1. Observation2. Hypothesis3. Prediction4. Experiment5. Data Analysis/ Conclusions6. Communication/ Verification
B. Evaluating Bias- at times, scientists have conflicts of interest. A scientist’s goal should be finding facts, not support of government agency agenda or the desired results of a pharmaceutical company.
Remember: Experiment termsExperiment terms
– Control group provides a normal standard against which we compare results of the experimental group.
– Experimental group is identical to the control group except for one factor.
–Variables: factors that change
–Theory -a set of related hypotheses confirmed to be true many times
– An advantage of the scientific method is that it is unbiased & repeatable.
IV. Tools & TechniquesA. Microscopes
1. Types of Microscopes
*Compound light microscope-shines light through a specimen(must have thin slice of object)-uses 2 lens to magnify image.
*Electron microscope-SEM (scanning electron microscope)
-TEM (transmission electron microscope)
2. The parts of the Microscope- see hand out
Compound microscopesUsed to magnify thin slices of specimens
www.slic2.wsu.edu
Magnification with each lens
• TOTAL MAGNIFICATION= low power magnification X eye piece magnification
• The eyepiece is 10X
• Low power is 4X
• Other lens may vary- usually
- 10X
- 40X
Microscope Use:• Carry the microscope with 2 hands-• By the “arm” & one hand under the base• Look through eyepiece & keep both eyes open • Place the slide that you want to view over the aperture
and gently move the stage clips over top of the slide to hold it into place.
• ALWAYS begin use & focus with the
*Microscope on LOW Power (4X)!!!!
*Make sure the stage is all the way down.!!!!!
• Always Begin focusing with the coarse adjustment
Light Microscopes
–The eyepiece magnifies the image.
–The objective lens enlarges the specimen.
–The stage is a platform that supports slides with specimens.
–The light source is a light bulb that provides light for viewing images.
Magnification & Resolution
–Magnification is the increase of an object’s apparent size.
–Resolution is the power to show details clearly in an image.
Figure 1. Relative Size of Microbes. E.M. refers to the Electron Microscope.
www.slic2.wsu.edu
Object Size and Magnifying Power of Microscopes
B. Other tools• Centrifuge-spinning separation of materials in a liquid that
have different densities
• Autoclave – heating chamber to disinfect
• Chromatography -is any technique that separates different substances based on their chemical or physical properties
• Electrophoresis - is a technique for separating particles that have an electrical charge.
• Spectrophotometer -determines what a substance is by measuring the amount of each wavelength of light absorbed by the sample.
• Computers are one of the most important tools used in biology studies.
http://www.chs.k12.nf.ca/science/b2201/WebCT-Copy/units/unit1-02.htm
Electron Microscopes
– Scanning electron microscopes pass a beam of electrons over the specimen’s surface for better viewing the external surface of a specimen.
– Transmission electron microscopes transmit a beam of electrons through a thinly sliced specimen for better viewing the internal structures of a specimen.
C. Units of Measure• SI Units
– Scientists use a single, standard system of measurement, called the metric system. The official name of the metric system is Système International d’Unités or SI.
Questions
Which of the following is the hereditary material in most living things?
F. DNA
G. lipids
H. oxygen
J. carbon dioxide
Questions
. Which of the following does evolution help explain?
A. how organisms reproduce
B. how organisms grow and develop
C. how organisms are related to each other
D. how organisms obtain and metabolize energy
Questions
Which of the following does the hierarchy of organization within an organism describe?
A. metabolism
B. homeostasis
C. internal structures
D. relationship to the physical environment
Questions
To which of the following does the resolution of a microscope refer?F. its ability to show detail clearlyG. its power to scan the surface of an objectH. its series of interchangeable objective lensesJ. its power to increase an object’s apparent size