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.

Slides:

Advertisements

Similar presentations

Graphing in Physics.

Advertisements

GRAPHING NOTES Part 1.

Experiments and Variables

Motion and Force. Motion and Force Chapter Three: Motion 3.1 Position and Velocity 3.2 Graphs of Motion 3.3 Acceleration.

Graphing. The Important Elements of a Graph  Horizontal Axis (X-Axis)  Represents the passage of time and the numerical value of behavior.  The Independent.

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

IPC Notes: Graphing.

Section 5: Graphs in Science

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

Graphing in Science. Types of Charts  Most scientific graphs are made as line graphs.  However, occasionally bar graphs, pie charts, or scatter plots.

Car and Ramp Part One: Distance and Time Learning Goals  Accurately measure distance.  Identify metric and English units of distance.  Convert between.

Living Systems Chapter One: Studying Life 1.1 Measurements 1.2 Thinking Like a Scientist 1.3 Graphs.

How do scientists show the results of investigations?

Graphing. The Important Elements of a Graph  Horizontal Axis (X-Axis)  The Independent Variable. A change in this variable affects the y variable. 

Graphs in Science You Can Do It!!!.

Graphing. South Carolina Standards PS-1.5 Organize and interpret the data from a controlled scientific investigation by using mathematics (including formulas.

Chapter 2: Measurement and Units  2.1 Space and Time  2.2 Mass, Matter, and Atoms  2.3 Experiments and Data.

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.

Why are Graphs Useful? AA graph is a “picture” of your data. GGraphs can reveal patterns or trends that data tables cannot. TThe 3 types of graphs.

Section 2.4 Representing Data.

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

Organizing Data A graph is a pictorial representation of information recorded in a data table. It is used to show a relationship between two or more factors.

Use what you know to convert.35 km/hr to m/min. Graphing in Physics.

Foundations of Physics

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.

Modeling Motion CPO Physics Taken from a presentation original by Patsy Decoaster.

Graphing Exercise. In this exercise you are going to make as many dots as you can on your whiteboard in a chosen amount of time. You will then graph your.

Line Graphs A line graph is a way to summarize how two pieces of information are related and how they vary depending on one another. The numbers along.

Introduction to science

Unit 1, Chapter 2 Integrated Science. Unit One: Forces and Motion 2.1 Using a Scientific Model to Predict Speed 2.2 Position and Time 2.3 Acceleration.

A Visual Display A graph is a visual display of information or data. This is a graph that shows a girl walking her dog. 1.3: Communicating with Graphs.

SCIENCE SKILLS. Chapter Two: Science Skills  2.1 Mass and Volume  2.2 Density  2.3 Graphing  2.4 Solving Problems.

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

Graphing Let’s Display the Data TYPES OF GRAPHS Bar Graph Pie Graph Line Graph AKA “Cartesian”

Graphing Basics. Creating a graph Draw the y-axis on the vertical axis and the X-axis on the horizontal one Label what variable is on each of the axis.

Area of a circle Radius r (m) Area A (m 2 ) when r = 2.5 A = 20 (to 2sf) when A = 30 r = 3.1 (to 2sf)

Chapter One, Section 5: Graphs in Science

Graphing Data. Graphs All graphs must have title and labeled axis Labels let you know what information is shown.

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.

Communicating with Graphs  A visual display of information of data.

Graphs in Science Section 1.5.

How to draw a line graph Yr 9 Science. Line graphs Line graphs can be useful for showing the results of an experiment. You usually use a line graph when.

Variable A Variable isanything that may affect (change) the out come of the experiment. In an experiment we are looking for a “Cause and Effect” “Cause.

Chapter 1: The Nature of Science.  Identify three types of graphs and explain the ways they are used.  Distinguish between dependent and independent.

Great way to show your data!. * In your journal, draw a 4 square grid.

Graphs and Graphing Physical Science Mr. Holmes Graphs A graph is a visual display of information or data. Graphs are useful for displaying numerical.

Communicating with Graphs Notes 1.3. Objectives Identify three types of graphs and explain the ways they are used. Analyze data using the various types.

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

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 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.

Graphing in Physics. Graphing A way to display data that is collected in an experiment. They must be constructed accurately and neatly so data is understood.

Data Representation: Making Tables & Graphs. Data Tables.

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.

IB Physics: Chapter 1 Lesson 2b: Graphs.

Making Science Graphs and Interpreting Data

Tell a Story with the Data

Making Science Graphs and Interpreting Data

Motion and Force. Motion and Force Chapter Three: Motion 3.1 Position and Velocity 3.2 Graphs of Motion 3.3 Acceleration.

1.4 Measurement and Graphing

Motion and Force. Motion and Force Chapter Three: Motion 3.1 Position and Velocity 3.2 Graphs of Motion 3.3 Acceleration.

Motion and Force. Motion and Force Chapter Twelve: Distance, Time, and Speed 12.1 Distance, Direction, and Position 12.2 Speed 12.3 Graphs of Motion.

Motion and Force. Motion and Force Chapter Three: Motion 3.1 Position and Velocity 3.2 Graphs of Motion 3.3 Acceleration.

Graphing in Science.

Chapter 1 The Nature of Science 1.3 Communicating With Graphs

Motion and Force. Motion and Force Chapter Three: Motion 3.1 Position and Velocity 3.2 Graphs of Motion 3.3 Acceleration.

Making Science Graphs and Interpreting Data

Presentation transcript:

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

2.3 Systems and variables Graphs are a type of mathematical model. A graph is a picture that shows how two variables are related.

2.4 Graphs A graph is a picture that shows how two variables are related. Graphs explain more than just numbers alone, so they are often used to display data collected during an experiment. How far can you travel on 10 gallons of gas?

2.4 Graphs Graphs are drawn with the independent variable on the horizontal or x-axis. The dependent variable goes on the vertical or y-axis. Types of graphs include line, bar, and pie graphs.

2.4 Parts of a graph A graph is a picture of information. Science information is usually organized in a table first.

Step 1: Decide which is the dependent and independent variable. The dependent variable goes on the y- axis and the independent variable goes on the x-axis. 2.4 How to make a line graph

Step 2: Make a scale for each axis by counting boxes to fit your largest value. Count by multiples of 1, 2, 5, or 10.

2.4 How to make a line graph One box equals 0.42 hour per box. Round 0.42 to 0.5. This means every two boxes equals 1 hour.

2.4 How to make a line graph For the y-axis, the data range is $20 to $95. To more easily calculate the scale, choose $0 to $100 as the data range. Round $8.3 to $10. One box on the y-axis equals $10.

2.4 How to make a line graph Step 3: Plot each point by finding the x-value and drawing a line upward until you get to the right y-value. Draw a smooth curve that shows the pattern of the points.

2.4 How to make a line graph Step 4: Create a title for the graph

Geology Connection A hydrogeologist is like a detective and a doctor all in one. These scientists are responsible for supplying and controlling groundwater. Hydrogeologists and Their Tools

Activity During the Measurement Olympics you and a partner will practice measurement and conversion skills. Measurement Olympics