Methods Of Science.

Methods Of Science

RED SLIDE: These are notes that are very important and should be recorded in your portfolio/binder.
BLACK SLIDE: Pay attention, follow directions, complete projects as described and answer required questions neatly. Copyright © 2010 Ryan P. Murphy

-Please make notes legible and use indentations when appropriate
-Please make notes legible and use indentations when appropriate Example of indent.

-Please make notes legible and use indentations when appropriate Example of indent Skip a line between topics

-Please make notes legible and use indentations when appropriate Example of indent Skip a line between topics Don’t skip pages

-Please make notes legible and use indentations when appropriate Example of indent Skip a line between topics Don’t skip pages Make visuals clear and well drawn. Please label

Keep an eye out for “The-Owl” and raise your hand as soon as you see him.
He will be hiding somewhere in the slideshow Copyright © 2010 Ryan P. Murphy

“Hoot, Hoot” “Good Luck!”
Keep an eye out for “The-Owl” and raise your hand as soon as you see him. He will be hiding somewhere in the slideshow “Hoot, Hoot” “Good Luck!” Copyright © 2010 Ryan P. Murphy

New Area of Focus: Observation, Inferences, and the Scientific Method.
Copyright © 2010 Ryan P. Murphy

A study of natural phenomenon.

A systematic study and method.

Knowledge through experience.

Is accurate, precise and methodical.

Is unbiased, a seeker of the truth.

Can observe and question.

Can find solutions, reasons, and research.

Works in all weather conditions if safe.

Can overcome obstacles.

Collaborates (talks) with others.
N F U N Study tonight Do good In science Do your work Be nice For Real T O D A Y Science Copyright © 2010 Ryan P. Murphy Copyright © 2010 Ryan P. Murphy

Science is a systematic attempt to get around human limitations.
Science tries to remove personal experience from the scientific process.

This data set makes me happy
Science is a systematic attempt to get around human limitations. Science tries to remove personal experience from the scientific process. “I love Science This data set makes me happy Copyright © 2010 Ryan P. Murphy

“This data set makes me happy.”
Science is a systematic attempt to get around human limitations. Science tries to remove personal experience from the scientific process. “I love Science.” “This data set makes me happy.” “I wanted better data.” Copyright © 2010 Ryan P. Murphy

Science tries to remove personal experience from the scientific process. “I love Science.” “This data set makes me happy.” “Failure is not an option.” “I wanted better data.” Copyright © 2010 Ryan P. Murphy

TRY AND WRITE WITHOUT PERSONAL PRONOUNS.
DO NOT USE…I, me, you, he, she, we, you, they, them, theirs, names, etc. Copyright © 2010 Ryan P. Murphy

Do not end science writing with the words “The End
Do not end science writing with the words “The End.” Save that for Disney movies. Copyright © 2010 Ryan P. Murphy

Activity! Please pass three items around the table three times.
Then write about your experience without using any personal pronouns. Copyright © 2010 Ryan P. Murphy

How the paragraph could have been written.

How the paragraph could have been written.
Three items were passed around the table in a random fashion. Each member of the table passed and contributed one item. Copyright © 2010 Ryan P. Murphy

Activity! Find the personal pronouns in this poorly written example.
Our table group was asked to pass three items around. I passed a pencil while Mark and Jill both passed their textbook. We passed our items around until we heard our teacher say “stop.” -The End. Copyright © 2010 Ryan P. Murphy

Answer! Find the personal pronouns in this poorly written example.
Our table group was asked to pass three items around. I passed a pencil while Mark and Jill both passed their textbook. We passed our items around until we heard our teacher say “stop.” -The End. Copyright © 2010 Ryan P. Murphy Copyright © 2010 Ryan P. Murphy

Our table group was asked to pass three items around. I passed a pencil while Mark and Jill both passed their textbook. We passed our items around until we heard our teacher say “stop.” -The End. Copyright © 2010 Ryan P. Murphy Copyright © 2010 Ryan P. Murphy Copyright © 2010 Ryan P. Murphy

Our table group was asked to pass three items around. I passed a pencil while Mark and Jill both passed their textbook. We passed our items around until we heard our teacher say “stop.” -The End.

Branches of Science… How many branches of science do you know. -

Types of scientists… Biology – The study of life.
Geology – The study of Earth. Chemistry – The study of Matter. Physics – The study of matter and energy. - -The list will continue on the next page. Each branch is a possible career field for you. Copyright © 2010 Ryan P. Murphy

Aerodynamics: the study of the motion of gas on objects and the forces created
Anatomy: the study of the structure and organization of living things Anthropology: the study of human cultures both past and present Archaeology: the study of the material remains of cultures Astronomy: the study of celestial objects in the universe Astrophysics: the study of the physics of the universe Bacteriology: the study of bacteria in relation to disease Biochemistry: the study of the organic chemistry of compounds and processes occurring in organisms Biophysics: the application of theories and methods of the physical sciences to questions of biology Biology: the science that studies living organisms Botany: the scientific study of plant life Chemical Engineering: the application of science, mathematics, and economics to the process of converting raw materials or chemicals into more useful or valuable forms Chemistry: the science of matter and its interactions with energy and itself

Climatology: the study of climates and investigations of its phenomena and causes
Computer Science: the systematic study of computing systems and computation Ecology: the study of how organisms interact with each other and their environment Electronics: science and technology of electronic phenomena Engineering: the practical application of science to commerce or industry Entomology: the study of insects Environmental Science: the science of the interactions between the physical, chemical, and biological components of the environment Forestry: the science of studying and managing forests and plantations, and related natural resources Genetics: the science of genes, heredity, and the variation of organisms Geology: the science of the Earth, its structure, and history

Marine Biology: the study of animal and plant life within saltwater ecosystems Mathematics: a science dealing with the logic of quantity and shape and arrangement Medicine: the science concerned with maintaining health and restoring it by treating disease Meteorology: study of the atmosphere that focuses on weather processes and forecasting Microbiology: the study of microorganisms, including viruses, prokaryotes and simple eukaryotes Mineralogy: the study of the chemistry, crystal structure, and physical (including optical) properties of minerals Molecular Biology: the study of biology at a molecular level. Nuclear Physics: the branch of physics concerned with the nucleus of the atom Neurology: the branch of medicine dealing with the nervous system and its disorders Oceanography: study of the earth's oceans and their interlinked ecosystems and chemical and physical processes

Organic Chemistry: the branch of chemistry dedicated to the study of the structures, synthesis, and reactions of carbon-containing compounds Ornithology: the study of birds Paleontology: the study of life-forms existing in former geological time periods Petrology: the geological and chemical study of rocks Physics: the study of the behavior and properties of matter Physiology: the study of the mechanical, physical, and biochemical functions of living organisms Radiology: the branch of medicine dealing with the applications of radiant energy, including x-rays and radioisotopes Seismology: the study of earthquakes and the movement of waves through the Earth Taxonomy: the science of classification of animals and plants Thermodynamics: the physics of energy, heat, work, entropy and the spontaneity of processes Zoology: the study of animals

Aerodynamics: the study of the motion of gas on objects and the forces created
Anatomy: the study of the structure and organization of living things Anthropology: the study of human cultures both past and present Archaeology: the study of the material remains of cultures Astronomy: the study of celestial objects in the universe Astrophysics: the study of the physics of the universe Bacteriology: the study of bacteria in relation to disease Biochemistry: the study of the organic chemistry of compounds and processes occurring in organisms Biophysics: the application of theories and methods of the physical sciences to questions of biology Biology: the science that studies living organisms Botany: the scientific study of plant life Chemical Engineering: the application of science, mathematics, and economics to the process of converting raw materials or chemicals into more useful or valuable forms Chemistry: the science of matter and its interactions with energy and itself Climatology: the study of climates and investigations of its phenomena and causes Computer Science: the systematic study of computing systems and computation Ecology: the study of how organisms interact with each other and their environment Electronics: science and technology of electronic phenomena Engineering: the practical application of science to commerce or industry Entomology: the study of insects Environmental Science: the science of the interactions between the physical, chemical, and biological components of the environment Forestry: the science of studying and managing forests and plantations, and related natural resources Genetics: the science of genes, heredity, and the variation of organisms Geology: the science of the Earth, its structure, and history Marine Biology: the study of animal and plant life within saltwater ecosystems Mathematics: a science dealing with the logic of quantity and shape and arrangement Medicine: the science concerned with maintaining health and restoring it by treating disease Meteorology: study of the atmosphere that focuses on weather processes and forecasting Microbiology: the study of microorganisms, including viruses, prokaryotes and simple eukaryotes Mineralogy: the study of the chemistry, crystal structure, and physical (including optical) properties of minerals Molecular Biology: the study of biology at a molecular level. Nuclear Physics: the branch of physics concerned with the nucleus of the atom Neurology: the branch of medicine dealing with the nervous system and its disorders Oceanography: study of the earth's oceans and their interlinked ecosystems and chemical and physical processes Organic Chemistry: the branch of chemistry dedicated to the study of the structures, synthesis, and reactions of carbon-containing compounds Ornithology: the study of birds Paleontology: the study of life-forms existing in former geological time periods Petrology: the geological and chemical study of rocks Physics: the study of the behavior and properties of matter Physiology: the study of the mechanical, physical, and biochemical functions of living organisms Radiology: the branch of medicine dealing with the applications of radiant energy, including x-rays and radioisotopes Seismology: the study of earthquakes and the movement of waves through the Earth Taxonomy: the science of classification of animals and plants Thermodynamics: the physics of energy, heat, work, entropy and the spontaneity of processes Zoology: the study of animals

They all use the Scientific Method
Aerodynamics: the study of the motion of gas on objects and the forces created Anatomy: the study of the structure and organization of living things Anthropology: the study of human cultures both past and present Archaeology: the study of the material remains of cultures Astronomy: the study of celestial objects in the universe Astrophysics: the study of the physics of the universe Bacteriology: the study of bacteria in relation to disease Biochemistry: the study of the organic chemistry of compounds and processes occurring in organisms Biophysics: the application of theories and methods of the physical sciences to questions of biology Biology: the science that studies living organisms Botany: the scientific study of plant life Chemical Engineering: the application of science, mathematics, and economics to the process of converting raw materials or chemicals into more useful or valuable forms Chemistry: the science of matter and its interactions with energy and itself Climatology: the study of climates and investigations of its phenomena and causes Computer Science: the systematic study of computing systems and computation Ecology: the study of how organisms interact with each other and their environment Electronics: science and technology of electronic phenomena Engineering: the practical application of science to commerce or industry Entomology: the study of insects Environmental Science: the science of the interactions between the physical, chemical, and biological components of the environment Forestry: the science of studying and managing forests and plantations, and related natural resources Genetics: the science of genes, heredity, and the variation of organisms Geology: the science of the Earth, its structure, and history Marine Biology: the study of animal and plant life within saltwater ecosystems Mathematics: a science dealing with the logic of quantity and shape and arrangement Medicine: the science concerned with maintaining health and restoring it by treating disease Meteorology: study of the atmosphere that focuses on weather processes and forecasting Microbiology: the study of microorganisms, including viruses, prokaryotes and simple eukaryotes Mineralogy: the study of the chemistry, crystal structure, and physical (including optical) properties of minerals Molecular Biology: the study of biology at a molecular level. Nuclear Physics: the branch of physics concerned with the nucleus of the atom Neurology: the branch of medicine dealing with the nervous system and its disorders Oceanography: study of the earth's oceans and their interlinked ecosystems and chemical and physical processes Organic Chemistry: the branch of chemistry dedicated to the study of the structures, synthesis, and reactions of carbon-containing compounds Ornithology: the study of birds Paleontology: the study of life-forms existing in former geological time periods Petrology: the geological and chemical study of rocks Physics: the study of the behavior and properties of matter Physiology: the study of the mechanical, physical, and biochemical functions of living organisms Radiology: the branch of medicine dealing with the applications of radiant energy, including x-rays and radioisotopes Seismology: the study of earthquakes and the movement of waves through the Earth Taxonomy: the science of classification of animals and plants Thermodynamics: the physics of energy, heat, work, entropy and the spontaneity of processes Zoology: the study of animals They all use the Scientific Method

Activity! Sketching out the scientific method.

Activity! Sketching out the scientific method.
This requires a full page and will look like the example on the next page when done. Copyright © 2010 Ryan P. Murphy

the independent variable
Observe Add to background information Form a new Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Support hypothesis Reject hypothesis Everything in the experiment should be the same except for the independent variable which is the one thing that is different. Repeat experiment Do something With the findings. Copyright © 2010 Ryan P. Murphy

Collect background information
Observe Collect background information Copyright © 2010 Ryan P. Murphy Copyright © 2010 Ryan P. Murphy Copyright © 2010 Ryan P. Murphy

Observe Collect background information Form a Hypothesis

Observe Collect background information Form a Hypothesis Create an experiment with a control group and experimental group.

Collect background information Form a Hypothesis
Observe Collect background information Form a Hypothesis Create an experiment with a control group and experimental group. Collect data Copyright © 2010 Ryan P. Murphy

Observe Collect background information Form a Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Reject hypothesis Copyright © 2010 Ryan P. Murphy

Collect background information Form a new Hypothesis
Observe Collect background information Form a new Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Reject hypothesis Copyright © 2010 Ryan P. Murphy

Observe Collect background information Form a new Hypothesis Create a new experiment with a control group and experimental group. Analyze the data Collect data Reject hypothesis Copyright © 2010 Ryan P. Murphy

Observe Collect background information Form a new Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Support hypothesis Reject hypothesis Copyright © 2010 Ryan P. Murphy

Observe Collect background information Form a new Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Support hypothesis Reject hypothesis Repeat experiment Copyright © 2010 Ryan P. Murphy

Observe Collect background information Form a new Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Support hypothesis Reject hypothesis Repeat experiment Do something With the findings. Copyright © 2010 Ryan P. Murphy

Add to background information Form a new Hypothesis
Observe Add to background information Form a new Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Support hypothesis Reject hypothesis Repeat experiment Do something With the findings. Copyright © 2010 Ryan P. Murphy

the independent variable
Observe Add to background information Form a new Hypothesis Create an experiment with a control group and experimental group. Analyze the data Collect data Support hypothesis Reject hypothesis Everything in the experiment should be the same except for the independent variable which is the one thing that is different. Repeat experiment Do something With the findings. Copyright © 2010 Ryan P. Murphy

Experiments search for cause and effect relationships in nature.

Experiments search for cause and effect relationships in nature.
These changing quantities are called variables.

Does your grade depend on how much time you spend on your work?

The dependent variable depends on other factors (how much you studied, effort, etc.)

The dependent variable depends on other factors (how much you studied, effort, etc.) Independent variable is the one you have control over (how much you studied).

The dependent variable depends on other factors (how much you studied, effort, etc.) Independent variable is the one you have control over (how much you studied). You have control over your grades.

Variable: Changing quantity of something.
-

Independent: (Change) The variable you have control over, what you can choose and manipulate.

Dependent: (Observe) What you measure in the experiment and what is affected during the experiment.

Control: (Same) Quantities that a scientist wants to remain constant so it’s a fair test.

Control: (Same) Quantities that a scientist wants to remain constant so it’s a fair test.
Everything is exactly the same except for the independent variable

What is the purpose of a Control?
A control is NOT being tested. Controls are used for COMPARISONS.

Height, number of leaves, flowers, etc
Problem Independent Variable (Change) Dependent Variable (Observe) Control Variable (Same) Does fertilizer help a plant to grow Amount of fertilizer (grams) Growth of the plant, Height, number of leaves, flowers, etc Same amount of soil, light, water, space, all the same.

Height, number of leaves, flowers, etc
Problem Independent Variable (Change) Dependent Variable (Observe) Control Variable (Same) Does fertilizer help a plant to grow? Amount of fertilizer (grams) Growth of the plant, Height, number of leaves, flowers, etc Same amount of soil, light, water, space, all the same.

Problem? Independent Variable (Change) Dependent Variable (Observe) Control Variable (Same) Do Pillbugs prefer a dark or light environment? One environment is dark, the other is light Count the number of Pillbugs that enter dark chamber. Moisture in both should be the same, temp, no food preference.

A student wants to find out what minerals melt ice the fastest
A student wants to find out what minerals melt ice the fastest. So the student places halite, calcite, hematite, and pyrite on equal sized cubes of ice on his counter in the kitchen. The student times how long it takes each mineral to melt completely through the ice cube. She records the time it takes each one in minutes in her science journal. Problem? = What minerals melt ice quickly? Independent Variable =Types of Minerals Dependent Variable = Time in minutes Control = Same size ice, temperature acts the same on all of them.

A student wants to find out what minerals melt ice the fastest. So the student places halite, calcite, hematite, and pyrite on equal sized cubes of ice on her counter in the kitchen. The student times how long it takes each mineral to melt completely through the ice cube. She records the time it takes each one in minutes in her science journal. Problem? = What minerals melt ice quickly? Independent Variable =Types of Minerals Dependent Variable = Time in minutes Control = Same size ice, temperature acts the same on all of them.

A student wants to find out what minerals melt ice the fastest. So the student places halite, calcite, hematite, and pyrite on equal sized cubes of ice on her counter in the kitchen. The student times how long it takes each mineral to melt completely through the ice cube. She records the minutes it takes for each one to melt in her science journal. Problem? = What minerals melt ice quickly? Independent Variable =Types of Minerals Dependent Variable = Time in minutes Control = Same size ice, temperature acts the same on all of them.

Problem? = What minerals melt ice quickly?
A student wants to find out what minerals melt ice the fastest. So the student places halite, calcite, hematite, and pyrite on equal sized cubes of ice on her counter in the kitchen. The student times how long it takes each mineral to melt completely through the ice cube. She records the minutes it takes for each one to melt in her science journal. Problem? = What minerals melt ice quickly? Independent Variable =Types of Minerals Dependent Variable = Time in minutes Control = Same size ice, temperature acts the same on all of them. Everything is the same except for the minerals

A student wants to find out how cigarette smoke blown into a small greenhouse of plants damages the plant. The student grows two small plants in separate clear plastic soda bottles. The students injects one with cigarette smoke periodically. Both are watered and given the same light conditions. The students records the height, number of leaves, and flowers of both plants everyday for one month. Problem? = Does cigarette smoke damage plants? Independent Variable = Cigarette Smoke Dependent Variable = Height of plants, leaves, flowers Control = Both containers were identical except one was given cigarette smoke (independent variable).

A student wants to find out how cigarette smoke blown into a small greenhouse of plants damages the plant. The student grows two small plants in separate clear plastic soda bottles. The student injects one with cigarette smoke periodically. Both are watered and given the same light conditions. The students records the height, number of leaves, and flowers of both plants everyday for one month. Problem? = Does cigarette smoke damage plants? Independent Variable = Cigarette Smoke Dependent Variable = Height of plants, leaves, flowers Control = Both containers were identical except one was given cigarette smoke (independent variable).

A student wants to find out how cigarette smoke blown into a small greenhouse of plants damages the plant. The student grows two small plants in separate clear plastic soda bottles. The student injects one with cigarette smoke periodically. Both are watered and given the same light conditions. The student records the height, number of leaves, and flowers of both plants everyday for one month. Problem? = Does cigarette smoke damage plants? Independent Variable = Cigarette Smoke Dependent Variable = Height of plants, leaves, flowers Control = Both containers were identical except one was given cigarette smoke (independent variable).

A student wants to find out how cigarette smoke blown into a small greenhouse of plants damages the plant. The student grows two small plants in separate clear plastic soda bottles. The student injects one with cigarette smoke periodically. Both are watered and given the same light conditions. The student records the height, number of leaves, and flowers of both plants everyday for one month. Problem? = Does cigarette smoke damage plants? Independent Variable = Cigarette Smoke Dependent Variable = Height of plants, leaves, flowers. Control = Both containers were identical except one was given cigarette smoke (independent variable).

A student wants to find out if an egg will crush more easily standing straight-up or on its side. The student creates a chamber that allows weights to be placed on a board that lies on top of the egg. The student places weights in grams on the board with an egg standing straight, and then on its side. The student records the total weight that was on the board when the egg crushed. Problem? = What side of the egg is strongest? Independent Variable = Egg straight or on side. Dependent Variable = Weights in grams Control = Similar brand of egg, similar size, same temp, everything is the same.

One more thing… it is best to make several trials with each independent variable.

Valid Experiments

Remember: To be a Valid Experiment:
Two groups are required --- the control & experimental groups There should be only one variable

Data Results of the experiment
May be quantitative (numbers) or qualitative

Data Must be organized Can be organized into charts, tables, or graphs

Conclusion The answer to the hypothesis based on the data obtained from the experiment

In order to verify the results, experiments must be retested.

Observation – Anything you can see, hear, smell, touch, taste, (Using your senses).

Observations Gathered through your senses
A scientist notices something in their natural world

Observation Basics. Our perceptions are not photographs, they are constructions - something that our minds manufacture. What we perceive is partially determined by what we know or believe. Constructive perception has survival value - it helps us make sense of the world. So, seeing is not necessarily believing. USE YOUR JOURNAL! Copyright © 2010 Ryan P. Murphy

Do these red lines bend?

Do these red lines bend? NO

Are these wheels moving?

Are these wheels moving?
NO

“Write down what it said in your journal?”

“Did your brain act faster than your eyes?”

Our brains are programmed for normal right side-up.

Our brains are programmed for normal right side-up.
I will flip this picture and you will see.

Repeat! See if it is easier upside down. On the next series of slides.
Say the color of the words below. (Not the actual words) Try to do it as fast as you can. Is it difficult? Copyright © 2010 Ryan P. Murphy

Can you see the mans face?

Please record what you see beneath this box.

Answer! The white marks say the word LIFT.

L I F T Answer! The white marks say the word LIFT.

Observation Basics. Our perceptions are not photographs, they are constructions - something that our minds manufacture. What we perceive is partially determined by what we know or believe. Constructive perception has survival value - it helps us make sense of the world. So, seeing is not necessarily believing. USE YOUR JOURNAL! Copyright © 2010 Ryan P. Murphy

Inference: A conclusion based on your observations.

Activity! How well do you observe the world around you.

Questions about the previous scene.

Questions for the street scene. What type of vehicles were they?

Questions for the street scene. What colors were they?

Questions for the street scene. Was it raining?

Questions for the street scene. Was it raining?
Answer: No. But the SUV’s wipers were on, conditions were overcast and the SUV could have just possibly come from the rain or driven through a sprinkler. Copyright © 2010 Ryan P. Murphy

Questions for the street scene. What was the speed limit?

Questions for the street scene. What was the speed limit? 35 mph
What country is this picture in? The United States most likely because 35 mph is not Metric. The U.S. is one of the few countries to use the Old English System. Copyright © 2010 Ryan P. Murphy

Questions for the street scene. What season was it?

Questions for the street scene. Two were driving, two were parked.
Utility van with no labels and small 4 door SUV. Utility van was white, SUV was dark blue with no license plate on the front. It was not raining. 35 mph (No Metric here, must be in the US) One witness, he was mowing the lawn. Summer, the leaves were well established and green. Copyright © 2010 Ryan P. Murphy

Questions about the previous scene.

What color was the roof? Answer: You can’t tell from the photograph. In this area of the country the roofs are dark colored shingles so that’s what we construct in our head. Copyright © 2010 Ryan P. Murphy

Methods Of Science.

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