Aim: What are graphs? Do Now: Answer the following questions in your notebook. Why is it important for scientists to organize their data? List as many.

Slides:

Advertisements

Similar presentations

Collect and Analyze Data (GRAPHING)

Advertisements

Graphing in Science.

Graphing Section 1.3. Why use graphs? Graph- used to make data easier to read and understand- shows patterns and trends.

Aim: Why are graphs important in the field of science?

Graphing with SULTAN Scale Units Labels Title Axes Neatness.

Graphing. Representing numerical information in a picture. Graph shows a picture of a relationship -how two processes relate -what happens when two events.

Sept. 11Pg. 12 Focus: Scientific Inquiry Skill: Graphs Objective: Scientists gather and organize data Homework: data table, parent signature Warm Up:

UNIT ONE: Science Skills  Chapter 1Measurement  Chapter 2The Scientific Process  Chapter 3Mapping Earth.

Graphs in Science You Can Do It!!!.

Measurement and Graphing. Standard of Measurement A standard is an exact quantity that people agree to use as a basis of comparison.

Aim: 1. How can we create a graph? 2. What is the purpose of a graph? Do Now: Handout – Read introduction & write the definition for each vocabulary word.

Aim: How do scientists interpret data (Part 3)? Do Now: Copy the following: Line Graph - A graph that is used to display data that shows how one variable.

Graphing in the Biology Classroom

Studying Earth Science Chapter Two: The Science Toolbox 2.1 Measurement 2.2 Measuring Time and Temperature 2.3 Systems and Variables 2.4 Graphs.

Making Graphs from Data. Bar, Line, or Pie? / One of the first things one needs to do when graphing is decide whether to make a bar graph or a line graph.

Graphing Guidelines  Often the goal of an experiment is to find the relationship between two variables.  As one variable changes, so does the other.

Graphing In Science BRAINSTORM Why is it important for scientists to organize their data? List as many ways as you can that scientists organize information.

Journal #5  Why is it important to make sure that you change only one factor (variable) at a time while keeping all other conditions the same?  How can.

Graphing Data: Introduction to Basic Graphs Grade 8 M.Cacciotti.

Graphs And Graphing Thursday, June 02, Graphs Bar - comparing trials/variables Line - change over time Circle (pie) - parts of a whole: %

Objective: How does a scientist set-up the appropriate graph?

1. PROBLEM : What you’re trying to solve, question

Page 1 We will cover: Data Tables Line Graphs Bar Graphs Circle Graphs We will cover: Data Tables Line Graphs Bar Graphs Circle Graphs.

The way we (scientists) do things.

Topic 1:Graphing Notes How does graphing help you classify and discover relationships?

GRAPHING DATA. After the data is organized into a data table, a graph is created Graphs give a visual image of the observations (data) which helps the.

Bar Graphs Used for comparing separate groups. Axes X- axis: independent variable (what the scientist controls) Horizontal D – dependent R – responding.

Graph: a visual display of information or data

Chapter One, Section 5: Graphs in Science

GRAPHING NOTES Part 1. TYPES OF GRAPHS Graphs are used to illustrate what happens during an experiment. Bar graph - used for comparing data. Pie graph.

What is the purpose of inquiry design? Inquiry/Experimental Design is a series of steps used to investigate natural occurrences/phenomena.

Graphing Review DRY MIX IN Headings Vocabulary Important Words.

Graphing in Science.

GRAPHING BASICS Data Management & Graphing. Types of Graphs After collecting your data, you will need to organize it into a graph. After collecting your.

GRAPH Definition: A PICTORIAL REPRESENTATION OF INFORMATION RECORDED IN A DATA TABLE. USED TO SHOW A RELATIONSHIP BETWEEN TWO OR MORE FACTORS.

The Nature of Science The Methods of Science Scientific Measurements Graphing.

Types of Graphs and Graphing Rules

Tables and Graphs. Graphs: Visual Display of Data X Axis: Independent Variable Y Axis: Dependent Variable.

Page 1 We will cover: Data Tables Line Graphs Bar Graphs Circle Graphs We will cover: Data Tables Line Graphs Bar Graphs Circle Graphs.

What Does A Graph Do? A graph is a way in which to graphically show information. Graphs allow for easy comparison of multiple variables. There are many.

Graphing Notes. Why Graph? Graphs are great because they communicate information visually Graphs help make complicated information easy to understand.

Between which two points is there a constant speed?

GRAPHING NOTES Understanding and constructing graphs.

Graphing. Line Graphs  Shows a relationship where the dependent variable changes due to a change in the independent variable  Can have more than one.

SCIENCE SKILLS. Magic Grow® Capsule Observations To make a Data Table: Observations of Sponge Animal Capsules Label the type of observation Give your.

 Line Graphs: are used to show something changing over time.  Bar Graphs: are used to show a comparison between two or more variables.  Pie Chart:

Data Representation: Making Tables & Graphs. Data Tables.

Aim: How do scientist organize their experimental information?

The Research Plan How Scientists Solve Problems. Investigate phenomenons Explain the results of investigations And use those explanations to make predictions.

Aim: What are graphs? Do Now: Answer the following questions in your notebook. Why is it important for scientists to organize their data? List as many.

How and Why are Graphs Used in Science?

More : Reading Data on a Graph Do Now 1. ADDED QUESTIONS 1.At what temperature is the highest percentage of largemouth bass reaching maximum size? 2.At.

Graphing. Why use graphs? Graphs provide a way to make information clear and meaningful. Different types of graphs include: Line graphs Bar graphs Pie.

Topic: Lab Skills Aim: How can we create a graph?.

Do Now: Answer the following questions in your notebook.

Presentation of Data.

9/19/16 HOW to make a graph Objective: I will construct a graph from a data table and include all of the required parts of a graph. PAGE 11.

BIOLOGY GRADE 10 CSEC GROUP

Tell a Story with the Data

Making Science Graphs and Interpreting Data

Graphing Notes.

Variables What is changing?.

Do Now: Answer the following questions in your notebook.

Aim – How can we represent quantities graphically?

Graphing A. A graph is a visual representation of the relationship between two variables.   1. The two variables are:   a. Independent Variable = The.

GRAPHING NIZOTES KEY CONCEPTS: What are the parts of a graph?

Presentation transcript:

Aim: What are graphs? Do Now: Answer the following questions in your notebook. Why is it important for scientists to organize their data? List as many ways as you can that scientists organize information visually.

A graph is a way in which to visually show information. Graphs allow for easy comparison of multiple variables. Graphs are constructed from data table. A data table must include headings, units, and data. I. Definitions:

II. Types of Graphs Line graph Bar graph Circle graph **We will only be making line graphs**

Line graphs have two axis. -The horizontal axis is the X axis it usually is where the independent variable is graphed - The vertical axis is the Y axis it usually is where the dependent variable is graphed III. Graph Parts EVERY graph needs a title.

The Independent Variable: is the variable that can be controlled by the experimenter (x-axis). It usually includes: time (dates, minutes, hours), depth (feet, meters), temperature (Celsius). III. Graph Parts continued:

The Dependent Variable: is the variable that is directly affected by the independent variable (y-axis). It is the result of what happens because of the independent variable. Example: How many inches something grew, Number of oxygen bubbles produced, How fast something happened III. Graph Parts continued:

Direct relationship - as x gets bigger, y gets bigger. For example, the relation ship between age and size (until maturity) is a direct relationship. Indirect / Inverse- as x gets bigger, y gets smaller. For example, the relationship between time spent at the mall and the amount of money in your pocket is an inverse relationship. Cyclic- a repeating pattern. IV. Graphing Relationships Direct Indirect / Inverse Cyclic

Direct Indirect / Inverse Cyclic

Most relationships in Earth Science are cyclic. the repeating high and low tides temperatures go from cold to warm each day temperatures go from cold to warm each year the phases of the moon When done, obtain a Scaling a Graph I worksheet from the back top bin.

Scaling Overview AIM: How do you scale a graph?

When you graph, make sure you: Have a proper title that describes the graph Plan out your scaled axis before actually writing them Label the x-axis and y-axis appropriately

One box along the x- axis is equal in length to one box along the y-axis.

The two axes can be scaled differently. Days

Rate of Change The rate of change measures the amount of change taking place in a given amount of time. This equation is found on page 1 of the Earth Science Reference Tables: Rate of Change = Change in Field Value Change in Time

Field value = what was being measured Change in time = the amount of time it took for the change to occur Rate of Change = Change in Field Value Change in Time

Example Problem Example: The temperature in a greenhouse is 10 degrees C at 12:00 a.m. At 3:00 a.m., the temperature is 5 degrees C. At what rate did the temperature change? There is a 5 degree C change in 3hrs. (5 degrees C / 3 hrs) Rate of change = 1.7 degrees C/hr.

Do now: - Take out your scaling a graph I and II. - I will be coming around to check scaling a graph II. - From your Scaling a graph I worksheet, find the rate of temperature change from January to July Rate of Change = Change in Field Value Change in Time

Rate of Change = Change in Field Value Change in Time

From your Scaling a graph II worksheet, find the rate of temperature change from July to December. Rate of Change = Change in Field Value Change in Time