Unit 6: Day 1: Circle Geometry
... celebration held in the Greek town of Olympia from as early as 776 BC to 393 AD. The historical origins of the Ancient Olympic Games are lost in the fog of time, but several artefacts have been found that allow us to take a look back in time. One of the most popular events of the time was the discus ...
... celebration held in the Greek town of Olympia from as early as 776 BC to 393 AD. The historical origins of the Ancient Olympic Games are lost in the fog of time, but several artefacts have been found that allow us to take a look back in time. One of the most popular events of the time was the discus ...
Word
... 2) Define a polygon. Discuss how polygons are identified. 3) Teacher led discussion on attributes of a regular polygon. 4) Repeat the song. Discuss what polygons are not. 5) Using pattern blocks students will create the polygon requested by the teacher. Repeat 2 ...
... 2) Define a polygon. Discuss how polygons are identified. 3) Teacher led discussion on attributes of a regular polygon. 4) Repeat the song. Discuss what polygons are not. 5) Using pattern blocks students will create the polygon requested by the teacher. Repeat 2 ...
Lecture14 Logic Circuits
... To subtract number B from A we add two’s complement of B to A Example: Compute A-B=25-11 using binary adders 1) Find binary representations A=011001, B=001011 2) Find two’s complement of B -B=110101 3) Add A+(-B) using binary notation ...
... To subtract number B from A we add two’s complement of B to A Example: Compute A-B=25-11 using binary adders 1) Find binary representations A=011001, B=001011 2) Find two’s complement of B -B=110101 3) Add A+(-B) using binary notation ...
Unit 3.1 What is a Rational Number Handout
... In grade 7 we did this by converting all the fractions to decimals and then ordering the decimals, then using the decimals to rewrite the original fractions down. For example: Order the following fractions in order from least to greatest. ...
... In grade 7 we did this by converting all the fractions to decimals and then ordering the decimals, then using the decimals to rewrite the original fractions down. For example: Order the following fractions in order from least to greatest. ...
File
... Link to last lesson : So far we have learnt how to calculate the interior and exterior angles of a triangle, and last lesson we learnt about different types of quadrilaterals and how to calculate the angles inside a quadrilateral. Today we are learning how to calculate angles inside any polygon. 2 m ...
... Link to last lesson : So far we have learnt how to calculate the interior and exterior angles of a triangle, and last lesson we learnt about different types of quadrilaterals and how to calculate the angles inside a quadrilateral. Today we are learning how to calculate angles inside any polygon. 2 m ...
10.4 Inscribed Angles and Polygons Essential Question
... Your camera has a 90° field of vision, and you want to photograph the front of a statue. You stand at a location in which the front of the statue is all that appears in your camera’s field of vision, as shown. You want to change your location. Where else can you stand so that the front of the statue ...
... Your camera has a 90° field of vision, and you want to photograph the front of a statue. You stand at a location in which the front of the statue is all that appears in your camera’s field of vision, as shown. You want to change your location. Where else can you stand so that the front of the statue ...
Approximations of π
Approximations for the mathematical constant pi (π) in the history of mathematics reached an accuracy within 0.04% of the true value before the beginning of the Common Era (Archimedes). In Chinese mathematics, this was improved to approximations correct to what corresponds to about seven decimal digits by the 5th century.Further progress was made only from the 15th century (Jamshīd al-Kāshī), and early modern mathematicians reached an accuracy of 35 digits by the 18th century (Ludolph van Ceulen), and 126 digits by the 19th century (Jurij Vega), surpassing the accuracy required for any conceivable application outside of pure mathematics.The record of manual approximation of π is held by William Shanks, who calculated 527 digits correctly in the years preceding 1873. Since the mid 20th century, approximation of π has been the task of electronic digital computers; the current record (as of May 2015) is at 13.3 trillion digits, calculated in October 2014.