Measuring Altitude The Davis Mark 3 Marine Sextant (aka “lifeboat” sextant)

Slides:

Advertisements

Similar presentations

1 Altitude Corrections Quiz Q & A Junior Navigation Chapter 4.

Advertisements

Junior Navigation Chapter 4

Locating Positions on Earth

Corrections and Adjustments TCA 1800

11/15/99Norm Herr (sample file) Making a Quadrant The quadrant is a device for measuring the altitude of an object (the angle of elevation of an object.

Looking out at the Night Sky What questions do you have?

Solving problems with the astrolabe. The astrolabe can be used to solve many types of astronomical problem The times of sunrise and sunset The time of.

Motions of the Earth, Moon and Sun

Lecture 1 PHYS Lecture 1: Angles, Parallax and Astronomical Distance Units Objectives: Understand basic astronomical terminology to describe.

2 nd & 3 th N.U.T.S. Workshops Gulu University Naples FEDERICO II University 8 – Weather Optics.

The Celestial Sphere Diagram

Daily Insolation & The Sun’s Path. Duration of Insolation Measure of the number of daylight hours Varies with seasons and latitude The longer the period.

BYC CCYC Sextant Training. What is a sextant? An instrument for measuring angular distances used especially in navigation to observe altitudes of celestial.

The Quadrant An astronomical instrument that is 1/4 of a circle or 90 degrees. It is used to measure the altitude of stars, or measure the latitude of.

Locating Positions on Earth

9-1 Integers and Absolute Value Learn to identify and graph integers and find opposites.

 Light- A wave motion and contains many different wavelengths which represent the different colours  Dispersion- The way light is split up into the.

Vocabulary positive numbers - are greater than 0. They may be written with a positive (+), but they are usually written without it. negative numbers -

1 The Sextant Homework Q & A Junior Navigation Chapter 2.

Discovering The Universe for Yourself

Do Not Write What is in Yellow APPARENT MOTIONS OF THE CELESTIAL OBJECTS.

Constellations & Motions in Our Sky

AST 112 Motion of Objects in the Sky. The Celestial Sphere Imagine you’re where Earth is, but there’s no Earth. What do you see? Keep in mind: – Nearest.

Introduction to Astronomy.  Observations lead to theories and laws  Laws are concise statements that summaries a large number of observations.  Theories.

The Celestial Sphere Lab 2. Celestial sphere Geocentric model zenith - the point on the celestial sphere that is directly over our heads always 90˚ from.

Modern Navigation Thomas Herring MW 11:00-12:30 Room

Unit 5 Intro to Oceanography Part 2. Why the Oceans Matter National Geographic - Why the Oceans matter.

Earth’s Rotation and Revolution

LESSON 19: The Marine Sextant, and Determination of Observed Altitude Learning ObjectivesLearning Objectives –Know the purpose of a marine sextant. –Apply.

Astronomy Vocabulary. astronomy The study of space and the objects (planets, moons, stars) in it.

A scientific model.  Why do we use the model of the celestial sphere when studying the night sky, even though it does not accurately represent three-dimensional.

Angular Separation is not enough! We want to know the answer to the ‘age old question’: How far away are the stars? Ans: A lot farther than anyone imagined!

1 Homework Q & A Junior Navigation Chapter 1 Lighthouses in the Sky.

The Marine Sextant Learning ObjectivesLearning Objectives Know the purpose of a marine sextant.Know the purpose of a marine sextant. Apply proper procedures.

9.3 Altitude-On-Hypotenuse Theorems (a.k.a Geometry Mean)

Do Now. 2/5/ B Integers and Absolute Value.

It’s All In The Stars: Earth’s Seasons and Human Navigation.

Introduction to Positional Astronomy The Night Sky  Nick Devereux 2006.

Navigation by Polaris In the Age of Exploration, the open ocean was a dangerous place for mariners. Good navigation was vital for survival. Mariners used.

- Discuss and review the Law of Reflection and mixing of colored light - Investigate the range of visibility of a mirror and practice light ray diagrams.

COMPASS BEARINGS A compass bearing is a route of travel to follow…… We measure bearings using degrees (360 o ) or mils (6400). Bearings are always measured.

Astronomy Basics Distances and Vocabulary Angles and the Unit Circle Powers of Ten Scientific Notation.

The Sextant Quiz Q & A Junior Navigation Chapter 2.

Fatima Salem Alsabosi Maitha Saeed Alkaabi

Celestial Navigation Celestial Motion 1. General Organization Original “celestial sphere” model devised by the Greeks is still used –Greeks saw the Earth.

Doing Backsights and Foresights ©2010 Dr. B. C. Paul Note – The techniques shown in these slides are considered common knowledge to surveyors. Figures.

The Daily Motion As the Earth rotates, the sky appears to us to rotate in the opposite direction. The sky appears to rotate around the N (or S) celestial.

Navigate Using a Map and Compass

Bell Ringer Describe the difference between the geocentric model of the solar system and the heliocentric model of the solar system.

Earth’s Rotation The spinning of earth on its AXIS ·AXIS tilted 23.5° rotation west to east ·Counterclockwise from NP ·15°/hour ·AXIS always points to.

Angular Separation is not enough! We want to know the answer to the ‘age old question’: How far away are the stars? Ans: A lot farther than anyone imagined!

Chapter 0: Charting the Heavens. Units of Chapter 0 The “Obvious” View Earth’s Orbital Motion The Motion of the Moon The Measurement of Distance Science.

ASTRONOMICAL OBSERVATIONS Astronomical Observations.

Earth Motions 1)Rotation – the spinning of an object on its axis. (Like a figure skater or a CD) 2)Direction of Rotation – Earth turns west to east or.

9.3 Altitude-On-Hypotenuse Theorems (a.k.a Geometry Mean)

Navigating the Night Sky Theory. Pinpointing a Position How do we define the position of a point on the surface of the Earth? What are the two sets of.

Marine Sextant and Bearing instruments

Mars Sextant PDR Opti 523 Paul Ward-Dolkas.

Locating Positions on Earth

Our Sky & Constellations

Junior Navigation Chapter 2

Physics assignment Vishakha 3614 Submitted by, Aarti 1179

Navigation in the Age of Explorations

THEODOLITE TRAVERSING BY S N Nanaware

Marine Sextant and Bearing instruments

The Road Pages Discussion.

What Is Astronomy? Write this on a new sheet of looseleaf

ASTRON VERSION 2.0 HOME PAGE

Presentation transcript:

Measuring Altitude The Davis Mark 3 Marine Sextant (aka “lifeboat” sextant)

Light Path through a Sextant The moveable arm adjusts the angle of Mirror B

Sextant Geometry The arc is about one sixth of 360 degrees, hence a “sextant” Through geometry, it can be proven that: altitude (α) = two times angle observed between the mirrors (2 β) Sextant graphic courtesy of Joaquim Alves Gaspar - own image, CC BY 2.5, https://commons.wikimedia.org/w/index.php?curid=1314046

View through a Sextant A sextant produces a split screen, one stationary (from the horizon mirror) and one adjustable (from the index mirror)

The instrument error called Index Error must be accounted for prior to an altitude measurement. Remove the error by adjusting the index mirrors until you have a continuous horizon at zero. Alternatively, adjust the angle until you have a continuous horizon. This angle is your index error. Set the sextant to zero and observe the horizon. If it is “broken” between the two images, there is index error. The index correction is the negative value of the index error. Therefore, the index correction is always removed from the altitude reading.

Taking a stellar sight Align horizon image with the horizon and find a star with your index mirror Adjust the index mirror until the star lines up with the horizon Rock the sextant in an arc motion to confirm that you were level with the horizon when making the measurement.

Taking a Sun Sight Here you will need the index filter. Never look at the Sun though a sextant without a filter! Usually, the lower limb of the Sun is used to measure solar altitude. You may also need a horizon filter to shield the glare of the Sun on the water.

Reading a Sextant Arc reads whole degrees “0” on Venier is the benchmark to read Arc (always read lower value) Venier reads arcminutes (in 2’ increments) The first alignment of Vernier and Arc tickmarks to the right of zero is the benchmark to read the Venier. VENIER Remember 60’ = 1o (60 arcminutes = 1 degree)