Earth Science Chapter 1 – The Nature of Science
Earth Science
OBJECTIVES
Differentiate among the four major branches of Earth Science.
Contrast the four systems of Earth.Discuss how Earth science effects your daily life.
Chapter 1 – Major AreasThere are four major areas in Earth science.
Astronomy is the study of objects beyond the Earth’s atmosphere.
M101 is a large Milky-Way-like galaxy in Ursa Major, about 25 million light-years (ly) distant.
Chapter 1 – Major Areas (continued)
The study of the materials that make up Earth and the processes that form and change these materials is known as geology.
Chapter 1 – Major Areas (continued)
The study of Earth’s Oceans is called oceanography.
The following activities are usually performed by oceanographers:
studying the creatures that inhabit salty water
measuring physical and chemical properties of the oceans
examining the effects of human activities on Earth's saltwater bodies
Chapter 1 – Major Areas (continued)
Meteorology is the branch of Earth science that deals with Earth’s atmosphere.
Chapter 1 Spheres
Earth can be divided into four major systems (or spheres).
The lithosphere includes the rocks that make up the crust and rigid upper mantle.
Chapter 1
Spheres – continued
The atmosphere is the blanket of gas that surrounds Earth.
Chapter 1 Spheres - continued
The water in Earth’s oceans, seas, lakes, rivers, glaciers, and in Earth’s atmosphere makes up the hydrosphere.
Earth’s hydrosphere is the system of all of the water on the planet.
Chapter 1 Spheres - continued
The biosphere is Earth’s inhabitants and their environments.
Earth’s four main systems interact with one another.
•You are part of the biosphere.•You live on the crust, which is part of the lithosphere. •You breathe the gases in the atmosphere.• You depend in many ways on the water in the hydrosphere.
Chapter 1 The Spheres – the
Summary
1.2 Methods of Scientists
OBJECTIVES
List the steps used in a scientific method.
Compare and Contrast experimental variables and controls.
Identify basic SI units.Explain how to write numbers using scientific notation.
Chapter 1 Section 2 The first step in a scientific method is to identify the problem and determine what you want to know.
• defining the problem,
• stating a hypothesis
• analyzing the results of the test
• and drawing conclusions.
Comparing & Contrasting the independent variable and the dependent variable.
Independent variable
An independent variable is a factor that can be manipulated.
The x-axis.
Dependent variable
A dependent variable is a factor that results from manipulating the independent variable, and is measured by the experimenter.
The y-axis
Both variables are involved in scientific experimentation.
Control
To show that the results of the experiment are actually due to the condition being tested, scientists use a control, which is a standard for comparison.
Chapter 1 Section 2
In scientific notation, a number is expressed as a value between 1 and 10 multiplied by a power of 10.
525,600 Minutes 5.256 x 105 Minutes
0.001 M 1.0 x 10-3 M
Chapter 1 Section 2
Most scientific studies use a standard system of units called SI (Le Systeme International d'Unites ), which is a modern version of the metric system.
SI Le Systeme International d'Unites
The SI unit of mass is kilogram (kg).
Mass gram
SI Le Systeme International d'Unites
Length meter
Temperature Kelvin
SI Le Systeme International d'Unites
Time second
Liquid equivalent liter
SI Le Systeme International d'Unites
Weight Newton
1.3 Communicating in Science
OBJECTIVES
List several ways in which scientific information is communicated.
Differentiate between a scientific theory and a scientific law.
Chapter 1 Section 3 Scientific information is communicated through:
•lab reports,
•professional papers.
either of which may include tables and graphs, and models.
Chapter 1 Section 3
A basic fact that describes the behavior of a natural phenomenon is called a scientific law.
May be thought of as a ‘rule of nature’, even though the cause of the law may not be known.
Scientific theory is based on an explanation which is based on many observations during repeated experiments.
Chapter 1 Section 3
A scientific theory is valid only if:
• it is consistent with observations, • makes predictions that can be tested, and • is the simplest explanation of observations.
Chapter 1 Section 3
A theory can be changed or modified if it is found to be incorrect.
Chapter 1 Section 3