This presentation will demonstrate how the Great Sphinx at Giza indicates the date ca.16,940 BCE. © Scott Creighton 2006-2014.

Slides:

Advertisements

Similar presentations

Objectives State the conditions under which you can prove a quadrilateral is a parallelogram.

Advertisements

A comparison of the Geo-Stellar Fingerprints of the three Orion Belt Stars with the three stars that form the wings of the Cygnus Constellation. © Scott.

Linear Programming. Introduction: Linear Programming deals with the optimization (max. or min.) of a function of variables, known as ‘objective function’,

‘Lehner Line’ Orion’s Belt Min Culmination c.10,500 BCE Orion’s Belt Max Culmination c.2,500 CE G2-Sphinx Line © Scott Creighton 2009.

B.C.E. (aka B.C.) It’s All Ancient History B.C. means before the birth of Christ Also known as B.C.E. or Before Common Era 0 B. C E C. E.

Time Sunrise Sunset Glasgow, Scotland, 7 th March 2009.

Detour Proofs and Midpoints

The Giza Precession Wheel Theory (GPWT) © 2006/2007 Scott Creighton.

Temperature Variable Assembly LM 324N: Used to amplify voltage using negative feedback Resistor values R i =474 Ω R f =10 kΩ Gain ( ) = With these.

Copyright 2004 David J. Lilja1 What Do All of These Means Mean? Indices of central tendency Sample mean Median Mode Other means Arithmetic Harmonic Geometric.

Mentee Overview. Welcome to Gold Star Welcome to Gold Star mentee! This pilot has been designed based on Quality Matters, a faculty- centered, peer review.

Jesus and the Gospel of Mark. Unit on Christianity Content: Focus on Jesus  Foundational for all forms of Christianity  Informed by historical scholarship.

Oscillations An oscillation is a repetitive to-and- fro movement. There are two types of vibration: free and forced. A forced vibration is produced when.

Introduction to the Basic Idea of Astrogeographia based on the book : Astrogeographia - Correspondences between the Stars and Earthly Locations, A Bible.

Target Assn Due Description 1.29/19 Core p. 17: 3, 4, 7-11, 15, 18, 22-28, 31, 34 CH: p. 17: 10, 11, 15, 18, 22-28, 31, 34,

Powerpoint presentations Mark Feldman Why Bother ? It’s a wonderful programme! Helps organize your thoughts.

Honors Geometry Section 8.6 Areas and Volumes of Similar Figures

Copyright 2007, Paradigm Publishing Inc. ACCESS 2007 Chapter 4 BACKNEXTEND 4-1 LINKS TO OBJECTIVES Query Design Query Criteria Modify a Query Using OR.

The Pendulum Gravity Cubit (Defining Distance as a Measure of Time) © Scott Creighton 2008 Test 1.

Discovering Geometry: Unit One Review 5-9 points = 1extra credit points on test points = 2 extra credit points on test points = 3 extra credit.

The Pyramids of Giza A Warning from Antiquity © 2006/2007 Scott Creighton.

What you need to know about… B.C. B.C. which stands for "Before Christ" –It is used for dates before year 0 (Remember, there is actually not a year zero,

 Sphinx were built to guard and protect pyramids and temples  It has the body of a lion and a head of a man believed to be the pharaoh.

Evaluation. Dash the greatest music magazine. This is Dash that I word so hard to make for the few past months. My music magazine is based for people.

Chris and Abbie’s Vital Statistics. It’s actually quite dull!!! But......It is quite easy if you think it through. Arghhh Statistics...

Physics 101 Astronomy Dr. Brian M. Davies Office: 532 Currens Hall, Office Hours are M W F 11-noon and Tues 10-11:30 a.m.

 The game features a hyperlinked board. You can choose categories at random or begin from the left corner and work towards the top.  The questions are.

A Conversation Between an Agnostic and a Christian (Con’t)

Analysis of a Story Essay prompt and rubric. Prompt Use one story element to discuss the theme of a story Use one story element to discuss the theme of.

Geography/ Introductory Chapter

How high is high tide?. High tide Low tide 11.5’ vertical difference The height of the tide is the vertical distance measured from “mean low tide”

Landforms Type of landform Student Name Teacher Name 2 nd grade Date Template Created by: Mrs. A. Scott.

Crime Scene Suspect H  The crime scene fingerprint is a(n) _________. Suspect ______ fingerprint is also a ____________. The crime scene and the suspect’s.

5-3: PROVING PARALLELOGRAMS Mr. Schaab’s Geometry Class Our Lady of Providence Jr.-Sr. High School

Longman Book V Unit 3 It was built many years ago.

Chapter 11 Vibrations and Waves. Simple harmonic motion Measuring simple harmonic motion Properties of waves Wave interactions.

PPP Accounting: What should we be trying to achieve. Ken Wild.

ASTRONOMICAL OBSERVATIONS Astronomical Observations.

Giza Necropolis (The Pyramids of Giza) By: Ray Hau Andrew Gilbert Alex Hartz.

Wednesday: Need a graphing calculator today. Need a graphing calculator today.

Distance Formulas: Number Line:  b-a  for a and b the coordinates of the points Plane: Exercises: 1.Find the distance AB if a = -3 and b=7 2.Find the.

Tutorial on Nov.12. Remarks for Lab4 assignemnt Euler method vs. Euler-Cromer method Euler methodEuler-Cromer method Sequence of the last two lines are.

Important Terms Chapter 25 Set #1 March 24, 2014.

Measuring Angles 1-6. Angles  An angle is formed by two rays with the same endpoint. The rays are the sides of the angle. The endpoint is called the.

EXHIBITORS MEETING AGENDA

10-2 Perpendicular and Parallels

Chord Properties and Segments Lengths in Circles

Bellwork 9/13 Please hand in:  Old bellwork sheet (if you haven’t already)  Timeline activity Safety contracts Then, grab a new bellwork sheet  NASA.

Error Correcting Code.

Archaeology and Its Importance in Studying History

Impact of Magnet Performance on the Physics Program of MICE

Timelines By Mrs. Podhurst.

Answering Text-Dependent Questions with Evidence Based Claims

Whose fingerprint is it?

$100 $100 $100 $100 $100 $200 $200 $200 $200 $200 $300 $300 $300 $300 $300 $400 $400 $400 $400 $400 $500 $500 $500 $500 $500.

Discussing Non-Fiction Texts

Tests for Parallelograms

Mr Daly A Simple Timeline.

Midpoint and Distance in the Coordinate Plane

Always Did you rise the sun for me?

How do you determine if a function is linear or non linear

Chord Properties and Segments Lengths in Circles

How To Outline And Why It’s Awesome.

Geography Handbook Notes

Goal Setting Please sit with a thought partner.

Proportion Guided Notes

Vocabulary Unit 1.

Chord Properties and Segments Lengths in Circles

Copying and Sharing Your Section to Another Instructor

Presentation transcript:

This presentation will demonstrate how the Great Sphinx at Giza indicates the date ca.16,940 BCE. © Scott Creighton

23,410 BCE G1 G2 G3

23,410 BCE G1 G2 G3 Main Giza Pyramids

23,410 BCE G1 G2 G3 Pendulum

23,410 BCE Orion’s Belt Max Culmination (Rising) G1 G2 G3

23,410 BCE G1 G2 G3

Orion’s Belt Min Culmination (Setting) G1 G2 G3

G1 G2 G3

Orion’s Belt Precession Timeline (12,960 yrs) G3

Giza Precession Timeline (‘Lehner Line’) G3 Orion’s Belt Precession Timeline (12,960 yrs)

G3

23,410 BCE Orion’s Belt 23,410 BCE Max Culmination Rising G3

20,450 BCE G3

18,450 BCE G3

16,940 BCE Sphinx aligned to timeline midpoint at 16,940 BCE G3

14,450 BCE G3

12,450 BCE G3

10,450 BCE Min Culmination Setting G3

10,450 BCE G3

8,450 BCE G3

6,450 BCE G3

3,980 BCE Sphinx aligned to timeline midpoint at 3,980 BCE G3

2,450 BCE G3

450 CE G3

2,500 CE Max Culmination Rising G3

2,500 CE Max Culmination Rising G3

The Giza-Orion Timeline operates like a simple pendulum

12:00 am Pendulum

6:00 am Pendulum

12:00 pm Pendulum

6:00 pm Pendulum

12:00 am Pendulum

?? What’s the time? 6:00 am or 6:00 pm? 12:00 am12:00 pm

Without knowing the direction of the swing we cannot tell. 12:00 am12:00 pm ?? What’s the time? 6:00 am or 6:00 pm?

23,410 BCE (12:00 pm) 2,500 CE 10,460 BCE (12:00 am) What’s the date marked by the Sphinx? 16,940 BCE (6:00 am) or 3,980 BCE (6:00 pm)? Sphinx

23,410 BCE (12:00 pm) 2,500 CE 10,460 BCE (12:00 am) Without knowing the direction of the initial ‘swing’ we cannot tell if the Sphinx marks 3,980 or 16,940 BCE. Sphinx

23,410 BCE (12:00 pm) 2,500 CE 10,460 BCE (12:00 am) We need something in the design that indicates the direction of the initial swing. Sphinx

23,410 BCE (12:00 pm) 2,500 CE 10,460 BCE (12:00 am) Was the initial direction from G1 to G3? Sphinx G1 G3

23,410 BCE (12:00 pm) 2,500 CE 10,460 BCE (12:00 am) Was the initial direction from G1 to G3? If from G1 to G3 then the Sphinx marks the date 16,940 BCE. Sphinx G1 G3

23,410 BCE (12:00 pm) 2,500 CE 10,460 BCE (12:00 am) Sphinx Or was the initial direction from G3 to G1? G1 G3

23,410 BCE (12:00 pm) 2,500 CE 10,460 BCE (12:00 am) Sphinx Or was the initial direction from G3 to G1? If from G3 to G1 then the Sphinx marks the date 3,980 BCE. G1 G3

Is there anything in the pyramid design that might indicate the direction of the initial (outward) swing of the ‘Precession Pendulum’?

Is there anything in the pyramid design that might indicate the direction of the initial (outward) swing of the ‘Precession Pendulum’? There is a possibility.

One of the truly remarkable features of the Giza Pyramids is that their relative proportions can be re-created in a simple, systematic fashion utilising the Orion Belt Stars as the underlying design template.

One of the truly remarkable features of the Giza Pyramids is that their relative proportions can be re-created in a simple, systematic fashion utilising the Orion Belt Stars as the underlying design template. This is called the ‘Giza-Orion Geo-Stellar Fingerprint’

One of the truly remarkable features of the Giza Pyramids is that their relative proportions can be re-created in a simple, systematic fashion utilising the Orion Belt Stars as the underlying design template. This is called the ‘Giza-Orion Geo-Stellar Fingerprint’ For any set of three non-linear points (stars), two quite different geo-stellar fingerprints can be created and these are dependent upon which end of the three points we choose to begin the design.

Orion’s Belt Geo-Stellar Fingerprint from G1 to G3 Al Nitak (G1) Al Nilam (G2) Mintaka (G3) Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Al Nitak (G1) Al Nilam (G2) Mintaka (G3)

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Start point G1/Al Nitak (Max Culm) Start point G3/Mintaka (Min Culm) Direction of Design Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Direction of Design Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

L1a Place line from Al Nitak to Al Nilam – L1a. Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Direction of Design Orion’s Belt Geo-Stellar Fingerprint from G1 to G3 L1a Place line from Mintaka to Al Nilam – L1a.

L1a L1 Double L1a to give L1. Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Direction of Design Orion’s Belt Geo-Stellar Fingerprint from G1 to G3 L1a L1

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L1 Direction of Design Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

L2a From endpoint of L1, place line to Mintaka. L2a. L1 Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L1 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3 L2a From endpoint of L1, place line to Al Nitak. L2a.

L2a L2 Double L2a to give L2. Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3 L2a L2

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L2 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Box L2 Diagonal Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Box L2 Diagonal Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Box L2 Diagonal Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Box L2 Diagonal Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

B1 Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 B1 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Duplicate B1 to give B1a B1a Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 B1a Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Duplicate L1 & place thru diagonal of B1a to give L3. L3 B1a L1 Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L1 B1a L3 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

L3 Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L3 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

From midpoint of L3, place line to L1. L4a. L1 L3 L4a Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L1 L3 L4a Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

L4 Double L4a to give L4. L4a Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L4a L4 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Box L4 Diagonal L4 Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

From endpoint of L3, place line to L1. L5a. L3 L1 L5a Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L1 L5a L3 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Double L5a to give L5. L5 L5a Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L5 L5a Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Box L5 Diagonal L5 Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 L5 Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Direction of Design Orion’s Belt Geo-Stellar Fingerprint from G1 to G3

Orion’s Belt Geo-Stellar Fingerprint from G3 to G1 Direction of Design Orion’s Belt Geo-Stellar Fingerprint from G1 to G3 Direction of Design

We can see that by commencing the geo-stellar fingerprint from G1 (max culmination) towards G3 we find that the proportions of the resulting bases matches the actual Gizamids to a very high degree.

We can see that by commencing the geo-stellar fingerprint from G1 (max culmination) towards G3 we find that the proportions of the resulting bases matches the actual Gizamids to a very high degree. Conversely, by commencing the geo-stellar fingerprint from G3 towards G1 the resulting bases in no way correspond to the actual main Giza pyramids.

We can see that by commencing the geo-stellar fingerprint from G1 (max culmination) towards G3 we find that the proportions of the resulting bases matches the actual Gizamids to a very high degree. Conversely, by commencing the geo-stellar fingerprint from G3 towards G1 the resulting bases in no way correspond to the actual main Giza pyramids. In other words, the only way to achieve a correspondence with the Giza pyramids is to start the design at G1 (max culmination). This implies that the direction of the ‘precession pendulum’ outward swing is from G1 (23,410 BCE) towards G3 (10,460 BCE). As such, the Sphinx bisects the precession timeline at the date ca.16,940 BCE (and not ca.3,980 BCE).

Conclusion The Sphinx & Pyramids Mark the Date ca.16,940 BCE

Conclusion The Sphinx & Pyramids Mark the Date ca.16,940 BCE THE END