I realize people who do read my blog post, including me, don’t really care about what a “Sextant” is or how to use it. Below I’ll post what I found but the bottom line is what I’m interested in and I think my readers will find interesting. All a sextant is, is a device that measures the angle between two objects. The sextant allows celestial objects to be measured relative to the horizon. So ships use to use them to make sure they were sailing the right course. Basically it is an old old old school GPS.
I find it fascinating & Share this because it is right inline with other articles I’ve written about how we have to rely on The Holy Spirit as our soul guide (Moral Compass & Megnetic North -https://wp.me/p6Exj2-3yw). God’s Word & His Spirit in us will never fail to get us to our final destination, at peace with Him.
“Do not let your hearts be troubled. You believe in God ; believe also in me. My Father’s house has many rooms; if that were not so, would I have told you that I am going there to prepare a place for you? And if I go and prepare a place for you, I will come back and take you to be with me that you also may be where I am. You know the way to the place where I am going.” Thomas said to him, “Lord, we don’t know where you are going, so how can we know the way?” Jesus answered, “I am the way and the truth and the life. No one comes to the Father except through me.
John 14:1-6 NIV
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How to use a Sextant
There’s nothing mystical or complicated about a sextant. All it is, is a device that measures the angle between two objects.
The sextant allows celestial objects to be measured relative to the horizon. This allows for excellent precision. The sextant allows direct observation of stars which allows it to be used at night. For solar observations, filters allow observations of the sun. Since the measurement is relative to the horizon, the measuring pointer is a beam of light that reaches the horizon. The measurement is limited only by the angular accuracy of the instrument. The horizon and celestial object remain steady when viewed through a sextant, even when the user is on a moving ship. This occurs because the sextant views the (unmoving) horizon directly, and views the celestial object through two opposed mirrors that subtract the motion of the sextant from the reflection.
The scale of a sextant has a length of one sixth of a full circle (60°); hence the sextant’s name (sextāns, -antis is the Latin word for “one sixth”. Sir Isaac Newton (1643-1727) invented the principle of the doubly reflecting navigation instrument (a reflecting quadrant but never published it. Two men independently developed the octant around 1730: John Hadley (1682-1744), an English mathematician, and Thomas Godfrey (1704-1749), a glazier in Philadelphia.
How to Use
The sextant makes use of two mirrors. With this sextant, one of the mirrors (mirror A in the diagram) is half-silvered, which allows some light to pass through. In navigating, you look at the horizon through this mirror.
But the basic principles behind celestial navigation are fairly straightforward. Here are a few examples that show how a sextant can be used to find location…
It’s a good thing, if you’re a navigator, that the Earth spins around at such an even pace. Every hour it moves 15 degrees. This means that if the sun is above the longitude of 0 degrees at noon, one hour later it will be above 15 degrees West. Now if you have a chronometer (this is just a fancy name meaning “extremely accurate clock”), you can find your longitude. Let’s say that the sun is directly overhead and your chronometer, which was set to noon when you were at 0 degrees, says it’s 3 o’clock position.
Celestial navigation is the process whereby angles between objects in the sky (celestial objects) and the horizon are used to locate one’s position on the globe. At any given instant of time, any celestial object (e.g. the Moon, Jupiter, navigational star Spica) will be located directly over a particular geographic position on the Earth. This geographic position is known as the celestial object’s sub-point, and its location (e.g. its latitude and longitude) can be determined by referring to tables in a nautical or air almanac.
The measured angle between the celestial object and the horizon is directly related to the distance between the subpoint and the observer, and this measurement is used to define a circle on the surface of the Earth called a celestial line of position (LOP). The size and location of this circular line of position can be determined using mathematical or graphical methods (discussed below). The LOP is significant because the celestial object would be observed to be at the same angle above the horizon from any point along its circumference at that instant.
Acknowledgement: This instruction was compiled from data found in Wikipedia, the free encyclopedia on-line and other sources. Visit http://en.wikipedia.org/wiki/Sextant for a more concise explanation of the sextant and other navigation instruments.
You may print this document for use as an instruction guide and for teaching.