Unit 1 Introduction to Biology Warm Up: Vocabulary Work in groups at your table to come up with basic scientific method vocabulary. Discuss and define these words in your groups. Defining Key Terms Science- an organized way of using evidence to learn about the natural world. Biology- the study of life. Observation- the process of gathering information Defining Key Terms Data- the information gathered from observation. Quantitative- expressed as numbers Qualitative- descriptive, involves characteristics or qualities (no numbers) Defining Key Terms (continued) Inference- a logical interpretation based on prior knowledge or experiences. Hypothesis- a proposed scientific explanation for a set of observations. Hypotheses must be testable!! Typically written in an If.then format. (If independent variable, then dependent variable) Think About It You see a plant that is starting to wilt. It does not appear dead, but clearly needs some love. Is this an observation or an inference? In your table groups, come up with as many inferences as you can. 1
Scientific Process Asking a Question Forming a Hypothesis Setting Up a Controlled Experiment Collecting Data Analyzing Results Drawing Conclusions Science As A Way Of Understanding Truths About Science It is an ongoing process Scientific understanding is always changing. Science explores the universe and way many systems and processes interact. Qualities of a Good Scientist Skeptical Open-Minded Come up with one on your own! Exit Slip In KY, all individuals are required to wear seatbelts in moving vehicles. How could scientific research have had an impact on this decision? Warm-Up Exercise Is a scientific hypothesis acceptable if there is no way to demonstrate that the hypothesis is wrong? Explain. Designing an Experiment Independent Variable- the variable that is changed. When graphing, the independent variable is placed on the X axis. Dependent Variable (responding)- the variable that is measured. When graphing, the dependent variable is placed on the Y axis. Designing an Experiment Controlled Variables (Constants)- factors that remain the same between experimental groups. Control Group- used to compare with the experimental groups. 2
Theories Theory- a well tested explanation that unifies a broad range of observations. To be valid a theory must pass several tests: It#must#explain#observa2ons#clearly#and#consistently.# Experiments#that#illustrate#the#theory#must#be# repeatable.# You#must#be#able#to## ####predict#results#from## ####the#theory.# Warm Up Calvin is conducting a study on the effects of exercise on personal happiness. He plans on having one group run/walk 6 miles per week and lift weights 3 times a week. He plans to have the other group maintain their normal daily routines, which does not include any exercise whatsoever. Come up with a hypothesis, independent and dependent variables, identify the experimental group and the control group. Evaluate this study. What are some of the problems, and how could it be better? Redi s Experiment on Spontaneous Generation Modeling Models;#a#representa2on#of#an#object#or# event#that#can#be#studied#to#understand#the# real#object#or#event.# Types#of#Models# Drawings#on#paper# Real#objects#used#to#help#us#picture#things#we# cannot#see# A#mental#picture# A#set#of#rules#or#mathema2cal#rela2onships#that# describe#how#something#works# Where Do Living Things Come From? Spontaneous Generation- living things can arise spontaneously from non-living things. While this was the common belief for many years, we now know that it is not true and scientists all over the world prescribe to the idea of biogenesis. Biogenesis- all living things come from other living things. Repeating Investigations John Needham Claimed that spontaneous generation could occur under the right conditions. Heated sealed flask of gravy and found microorganisms (thought heat would kill any living things in gravy) Found gravy swarming with activity. 3
Repeating Investigations Spallanzani s Test of Redi s Findings Lazzaro Spallanzani Boiled 2 flasks of gravy, sealed 1 immediately and left the other open (thought boiling would definitely kill microorganisms). Open jar was full of life. Sealed jar was uncontaminated. Pasteur s Test of Spontaneous Generation Pasteur showed that all living things come from other living things. (biogenesis) Exit Slip What does the term spontaneous generation mean? How does a scientific theory compare with a scientific hypothesis? Warm-Up There are several things that are similar between my fish and the second hand of a clock. Name some of the similarities as well as some of the differences and think about what makes the fish living but the clock not. Characteristics of Living Things Living things are made up of units called cells. A cell is the smallest unit of an organism that can be considered alive. Living things reproduce. Sexual Reproduction- 2 parents are united to form a genetically unique offspring. Asexual Reproduction- a single parent produces offspring that are identical to itself. Living things are based on a universal genetic code. This information is needed to live, grow, and reproduce. Living things grow and develop. Cells undergo differentiation to perform different functions. 4
Characteristics of Living Things Living things obtain and use materials and energy. All organisms must take in materials and energy to grow, develop, and reproduce. Metabolism- the sum of all chemical reactions in the body. Living things respond to their environment. Organisms detect and respond to stimuli from their environment. Living things maintain a stable environment. Although conditions outside an organism may change dramatically, most organisms need to keep conditions inside their bodies constant. (Homeostasis) Taken as a group, living things change over time. Individuals do not change, but groups of organisms tend to evolve over time. Branches of Biology Biosphere- all living things Biome- group of similar ecosystems Ecosystem- living things and their nonliving surroundings Community- populations that live together in a defined area Population- group of organisms of one type that live in the same area Organism- individual living thing Groups of cells- tissues, organs, and organ systems Cells- smallest functional unit of life Molecules- groups of atoms; smallest unit of most compounds Microscopes Microscopes- produce magnified images of structures that are too small to see with the unaided eye. Light Microscopes Produce magnified images by focusing visible light rays. Uses 2 lenses to form an image. The only microscope that can be used to study living things. Electron Microscope Use beams of electrons to produce images. Can produce images up to 1,000x more detailed than light microscopes. Cannot view living cells. 2 Types: Transmission Electron Microscopes (TEMs)- Has the most magnification. Used to view the fine structures inside a cell. (organelles) Scanning Electron Microscopes (SEMs)- used to view the detailed surface of a specimen. Early Microbiologists Anton Van Leeuwenhoek Viewed animalcules or microorganisms, in pond water, rain water, and dust. Credited for advances in the microscope. Robert Hooke First to describe and coin the word cell. 5
Exit Slip What is homeostasis? Give an example of how it is maintained. What biological processes includes chemical reactions that break down materials? List some observations that could be made to determine whether an object that is not moving is living or nonliving. Warm Up List at least two differences between sexual and asexual reproduction. What does it mean/why is is necessary for cells to differentiate? Making Measurements Length;#a#measure#of#the#straight;line# distance#between#two#points.# Mass;#a#measure#of#the#amount#of#maFer#in# an#object.# Weight;#a#measure#of#the#gravita2onal#force# exerted#on#an#object.##(weight#=#mass#x#gravity)# Volume;#a#measure#of#the#size#of#the#body#or# region#in#three;dimensional#space.## Units of Measurement SI System- the standard units of measurements used by scientists. Quantity Unit Abbreviation Length Meter m Mass Gram g Time Second s Temperature Celsius C Volume Liter L SI Prefixes SI#prefixes#are#used#for#very#large#and#small# measurements.# SI#prefixes#are#all#based#in#mul2ples#of#10.# Ex:#5,000#kilometers#=#500,000,000#cen2meters# Class Practice Convert#486#milliliters#to#cen2liters.# Convert#312#kilometers#to#meters.# Convert#0.32#hectagrams#to#decigrams.# Kentucky(Has(Dark((base(unit((Deep(Coal(Mines# # ## # #K# #kilo# # #De# #deci## # # # #H# #hecta # #C# #cen2## # #Da# #deca# # #M# #milli## 6
You Try It! Convert#1.85#meters#to#cen2meters.# Write#55#decimeters#as#meters.# Change#1.6#kilograms#to#grams.# Warm Up Exercise How many milliliters are on 0.45 liters? How many grams are in 500,000 kilograms? Scientific Notation Scien2fic#Nota2on;#a#method#of#expressing#a# quan2ty#as#a#number#mul2plied#by#10#to#the# appropriate#power.##(10 x )# When#you#mul2ply#in#scien2fic#nota2on,#you# ADD#the#exponents.# When#you#divide#in#scien2fic#nota2on,#you# SUBTRACT#the#exponents.# Class Practice Write#the#following#measurements#in# scien2fic#nota2on.# 800,000,000#meters# 0.0015#kg# 67,453#L# You Try It! Write#the#following#measurements#in# scien2fic#nota2on.# 0.00046#mL# 42,000,000,000#km# 89,265#g# Class Practice Write#these#measurements#in#long#form.# 4.5#x#10 3 #g# 1.99#x#10 ;8 #cm# 0.422#x#10 4 #m# 7
You Try It! Write#these#measurements#in#long#form.# 9.53#x#10 5 #dm# 0.1223#x#10 3 #cg# 6.04#x#10 ;4 #ml# Class Practice Perform#the#following#calcula2ons# (5.5#x#10 4 #cm)#x#(1.4#x#10 4 #cm)# Perform#the#following#calcula2ons# 5.2#x#10 8 #cm 3 # ## #9.5#x#10 2 #cm 3 # You Try It! Perform#the#following#calcula2ons# (4.34#g/mL)#x#(8.22#x#10 6 #g/ml)# (3.8#x#10 ;2 #cm)#x#(4.4#x#10 ;2 #cm)#x#(7.5#x#10 ;2 #cm)# Graphing Scientific Data Line#Graphs;#show#con2nuous#changes# Bar#Graphs;#compare#the#values#of#items# Pie#Graphs;#show#the#parts#of#a#whole# Perform#the#following#calcula2ons# ###### #####6.05#x#10 7 #g# #############8.8#x#10 6 #cm 3# 8