Introduction to Geometry – Postulates and Theorems

1. Introduction to Geometry – Postulates and Theorems This first section introduces you to terms that we will be using throughout the course. I would not go about memorizing these but you must understand how they are used. So I would write out the definition of a postulate or theorem, and then describe in your own words how it is utilized.

2. Introduction to Geometry – Postulates and Theorems This first section introduces you to terms that we will be using throughout the course. I would not go about memorizing these but you must understand how they are used. So I would write out the definition of a postulate or theorem, and then describe in your own words how it is utilized. Definitions – statements that distinguish one term from all other terms Triangle – an enclosed three sided figure Square – an enclosed four sided figure, all sides have equal measure and all angles are right angles

3. Introduction to Geometry – Postulates and Theorems This first section introduces you to terms that we will be using throughout the course. I would not go about memorizing these but you must understand how they are used. So I would write out the definition of a postulate or theorem, and then describe in your own words how it is utilized. Definitions – statements that distinguish one term from all other terms Triangle – an enclosed three sided figure Square – an enclosed four sided figure, all sides have equal measure and all angles are right angles Each definition names the term, defines which set it belongs to ( both are figures ), and states the properties that distinguish it from other terms.

4. Introduction to Geometry – Postulates and Theorems This first section introduces you to terms that we will be using throughout the course. I would not go about memorizing these but you must understand how they are used. So I would write out the definition of a postulate or theorem, and then describe in your own words how it is utilized. Definitions – statements that distinguish one term from all other terms Triangle – an enclosed three sided figure Square – an enclosed four sided figure, all sides have equal measure and all angles are right angles Each definition names the term, defines which set it belongs to ( both are figures ), and states the properties that distinguish it from other terms. Postulates – statements that are generally accepted as true Every line contains at least two points.

5. Introduction to Geometry – Postulates and Theorems This first section introduces you to terms that we will be using throughout the course. I would not go about memorizing these but you must understand how they are used. So I would write out the definition of a postulate or theorem, and then describe in your own words how it is utilized. Definitions – statements that distinguish one term from all other terms Triangle – an enclosed three sided figure Square – an enclosed four sided figure, all sides have equal measure and all angles are right angles Each definition names the term, defines which set it belongs to ( both are figures ), and states the properties that distinguish it from other terms. Postulates – statements that are generally accepted as true Every line contains at least two points. Postulates help us to state simple facts; in this case referring to lines. Postulates help us draw valid conclusions about complex problems. Sometimes they describe relationships between geometric figures.

6. Introduction to Geometry – Postulates and Theorems This first section introduces you to terms that we will be using throughout the course. I would not go about memorizing these but you must understand how they are used. So I would write out the definition of a postulate or theorem, and then describe in your own words how it is utilized. Theorems – statements that must be proved before they are accepted as being true Theorem - If two lines are perpendicular, they form four right angles. To prove this theorem we need to know the definition of perpendicular. Perpendicular Lines – lines that intersect each other at a 90° angle.

7. Introduction to Geometry – Postulates and Theorems This first section introduces you to terms that we will be using throughout the course. I would not go about memorizing these but you must understand how they are used. So I would write out the definition of a postulate or theorem, and then describe in your own words how it is utilized. Theorems – statements that must be proved before they are accepted as being true Theorem - If two lines are perpendicular, they form four right angles. To prove this theorem we need to know the definition of perpendicular. Perpendicular Lines – lines that intersect each other at a 90° angle. To prove theorems you might need an illustration. The illustration helps show how the lines are perpendicular

8. Introduction to Geometry – Postulates and Theorems Proof – a formal process used to demonstrate the truth of a statement To prove something in geometry you need to set up a series of logically related statements that lead to some previous conclusion. They are set up as a table…

9. Introduction to Geometry – Postulates and Theorems Proof – a formal process used to demonstrate the truth of a statement To prove something in geometry you need to set up a series of logically related statements that lead to some previous conclusion. They are set up as a table… Direct Proof – shows that a statement is true because a logical chain of steps supports it. Indirect Proof – shows that a statement can not be false, therefore it must be true

10. Introduction to Geometry – Postulates and Theorems Let’s set up a simple proof so you can see what it looks like. Given : AB is intersecting CD at E AB is perpendicular to CD Prove : angle AEB = angle CED C B A E D

11. Introduction to Geometry – Postulates and Theorems Let’s set up a simple proof so you can see what it looks like. Given : AB is intersecting CD at E AB is perpendicular to CD Prove : angle AEB = angle CED C B A E D

12. Introduction to Geometry – Postulates and Theorems Let’s set up a simple proof so you can see what it looks like. Given : AB is intersecting CD at E AB is perpendicular to CD Prove : angle AEB = angle CED C B A E D

13. Introduction to Geometry – Postulates and Theorems Let’s set up a simple proof so you can see what it looks like. Given : AB is intersecting CD at E AB is perpendicular to CD Prove : angle AEB = angle CED C B A E D