Thank you, Jesus, for explaining Azimuth to a child's brain... I looked at other videos where you need a Ph.D. to comprehend what they say. You are a good teacher.
@@LaunchPadAstronomy My main confusion as to how to draw this imaginary line from the moon to the nearest horizon point during its celestial transition when the moon is closest to its zenith if we are situated near the equator. In lower latitudes, this is not such an issue because the moon's altitude is relatively closer to the horizon and we know where North is. But when the moon is high up that imaginary arc to the horizon could end up anywhere on the horizon. Knowing the zenith's time of the moon and having a watch would take care of proper calculations. But how would Colombus know that crossing the Atlantic with no watch in the middle of the ocean?
thank you i was confusing Altitude and Elevation till seeing your video altitude true for everything elevation works only inside earth we can use altitude on earth but not vise versa , by having distance from us to the object and the angle(altitude) we figure out the height we are seeing
Awesome explanation. The video at the end was so good. Can you please help me by suggesting any resource for mathematical calculations involved in the conversion of different Astronomical Coordinates?
Hi, I am a big fan of your work and I always use your video to help explain things to people. Would it be possible for you to do a video on the difference between: Astronomical horizon, Horizon, true horizon, eye level, perspective and vanishing point please. This will help clear up some confusion for some people I know. Thank you for your videos!
awesome video, may i ask transit happen when stars intersect the meridian line? But at the North or South pole, the stars wheel around the zenith, why there is no transit at North and South pole? Hope can answer my questions 😬
Thank you for the explanation, but it would be great if you could help me understand, how east is left to the North,I am not able to understand that. Sorry if its very basic.
Imagine you’re standing outside facing south. East is to your left and west is to your right. Now imagine you look up at the sky while still facing south. East is still to your left and west is still toward your right. Hope that helps!
Thank you! The thing about this system is that while it can describe every point on the sky, Earth rotates underneath it, so everything in the sky appears to make a circular path around the celestial sphere (even the north star, though it's hard to notice). So this system will only describe the location of a star or planet at any given moment. There's another system we use that's independent of Earth's rotation, which I discuss in another video. Cheers!
¿Any idea how to locate the first aries point from any place you are on earth? Is for the purpose of practicing. Maybe some DIY clinometer gadget, that help me to locate where is the vernal point, and after that, finding a star by it´s declination and AR? Or maybe a simpler method? By the way, i like your tutorials, they are very good!
Thanks! The first point of Aries / vernal equinox is by definition at RA: 0h; Dec: 0°. But as far as being able to point to it, it's really just a matter of familiarity with the sky and knowing where to look (hint: Pices :) )
Right, you wouldn't need a program. Just a good star map so you know what pattern of stars to look for. I'd pick a pattern that surrounds or "points" to the VE and practice looking for that.
Its correct, you have to imagine lying down to understand this diagram. Your toes point south as seen in the video, and your head points north. That means your left hand faces east (which is why east is on the left) and your right hand faces west (which is why west is pictured to be right).
Because we’re looking up :) To see what I mean, go outside and face south. North is behind you. Which way is east? Which way is west. Now look up at the sky and ask yourself which way is east and which way is west.
ok im 35 years old and im gunna ask a question? when you said the sun is at its highest this is 12 but not to be confused with 12 noon cause of time zones.... when the sun is at that highest point is it like that for the hole rest of the world? give or take a few hours depending on latitude and longitude?
i hope this helps. Altitude azimuth coordinate system is a local system. That is it is observer oriented. if you're in the North pole and then you're friend is at the south pole. Both of your Zeniths are not the same. you take a point directly above you as zenith (somewhere in the north), and your friend take a point directly above him/her as zenith(obviously in the south). if zeniths differ (they definitely differ from places that are far from each other, like two countries or two continents) the altitude and azimuth also differs. So the sun for observer 1 in India is at its highest point only for him and people from his city or state and not for the observer 2 from china or japan.
quick question? when you say observer 1 in India and observer 2 in China or Japan... their all right next to eachother.... Where is Japan located in the World. This island nation of East Asia located in the Pacific Ocean is officially called the Nippon Koku, which means State of Japan. The neighboring countries of North Korea, South Korea, Russia and China are located west of Japan India is positioned on the Indian subcontinent in south-central Asia, and is located in both the eastern and northern hemispheres. India bordered by the Arabian Sea, Bay of Bengal, Gulf of Mannar, Indian Ocean, and the countries of Pakistan, China, Nepal, Bhutan, Bangladesh and Burma (Myanmar). why would the sun be any different for observer 2? from observer 1? and Another thing ANTARCTICA IS ON the South pole.. NO ONE OR NOTHING LIVES IN ANTARCTICA
en.m.wikipedia.org/wiki/Sea_level look up Vertical datum....heres the link en.m.wikipedia.org/wiki/Geodetic_datum#Vertical_datum A vertical datum is a reference surface for vertical positions, such as the elevations of Earth features including terrain, bathymetry, water level, and man-made structures. The same position on a spheroid has a different angle for latitude depending on whether the angle is measured from the normal line segment center of the ellipsoid or the line segment straight from the center Look up Geodetic coordinates Note that the "flatness" of the spheroid is greater than that of the hole Earth; as a result, the corresponding difference between the "geodetic" and "geocentric" In geodetic coordinates, the Earth's surface is approximated by an ellipsoid, and locations near the surface are described in terms of latitude , longitude and height. Geodetic versus geocentric latitude Geodetic latitude resp. altitude, is different from geocentric latitude, resp. altitude. Geodetic latitude is determined by the angle between the equatorial plane and normal to the ellipsoid, whereas geocentric latitude is determined by the angle between the equatorial plane and line joining the point to the centre of the ellipsoid Unless otherwise specified, latitude is geodetic latitude. The WGS 84 datum surface is an oblate spheroid with equatorial radius a = 6378137 m at the equator and flattening f = 1/298.257223563. The refined value of the WGS 84 gravitational constant (mass of Earth’s atmosphere included) is GM = 3986004.418×108 m³/s². The angular velocity of the Earth is defined to be ω = 72.92115×10−6 rad/s.
😅🤣😂🤣😅LOL!!! Stars do not rise in the east and set in the west. Stars have been studied and recorded for centuries. In one years time they make a 360° rotation around the pole star, "Polaris". Did you not notice, @5:29 the one star located on the green "z" line, half way between the "z" and N, Polaris did NOT move off the line through out the entire night as every other star in the sky did. Affix Polaris half way between east and west, and half way between north and south and you will find this to be a FACT. 🙉🙈🙊😵💫😵💫
_''In one years time they make a 360° rotation around the pole star, "Polaris''_ Really one year? Try one day! _""Polaris did NOT move off the line through out the entire night as every other star in the sky did''_ Wrong! Polaris rotated around the North Celestial Pole like the other stars. Polaris is not at the NCP. Look closely. _''Stars have been studied and recorded for centuries. ''_ Yep, that's how we know how it all works. You should study them more.
Thank you, Jesus, for explaining Azimuth to a child's brain... I looked at other videos where you need a Ph.D. to comprehend what they say. You are a good teacher.
Thank you very much!
@@LaunchPadAstronomy My main confusion as to how to draw this imaginary line from the moon to the nearest horizon point during its celestial transition when the moon is closest to its zenith if we are situated near the equator. In lower latitudes, this is not such an issue because the moon's altitude is relatively closer to the horizon and we know where North is. But when the moon is high up that imaginary arc to the horizon could end up anywhere on the horizon. Knowing the zenith's time of the moon and having a watch would take care of proper calculations. But how would Colombus know that crossing the Atlantic with no watch in the middle of the ocean?
Amazing video. You made things so much easier to understand and visualize. Thanks a million.
Wonderful! Thank you for your efforts to make things clear😊
You’re certainly welcome!
when a youtube video do more than my professor and books LMAO
thank you
i was confusing Altitude and Elevation till seeing your video
altitude true for everything
elevation works only inside earth
we can use altitude on earth but not vise versa , by having distance from us to the object and the angle(altitude) we figure out the height we are seeing
best channel i discovered
Thank you!
Thank you for this video. I was trying to understand it from a book and that was very complex but you made it so easy.
(current astronomy student) At 1:55 in this video, did you mean "-90 at the nadir?"
Awesome explanation. The video at the end was so good. Can you please help me by suggesting any resource for mathematical calculations involved in the conversion of different Astronomical Coordinates?
What a great video! Thank you
Hi, I am a big fan of your work and I always use your video to help explain things to people.
Would it be possible for you to do a video on the difference between:
Astronomical horizon, Horizon, true horizon, eye level, perspective and vanishing point please.
This will help clear up some confusion for some people I know.
Thank you for your videos!
Excellent breakdown! Thanks!
Glad it was helpful!
Binoculars astronomy book got me started Nd you made it understand able
Great video helped me understand how to define the location of star very well :)
I love your videos! They’re so clear and easy to understand. Thank you :))
Thank you Issac!
awesome video, may i ask transit happen when stars intersect the meridian line? But at the North or South pole, the stars wheel around the zenith, why there is no transit at North and South pole? Hope can answer my questions 😬
Nice work keep on going
So clear. Thanks
Fantastic. Thanks.
at 1:56 I think you mean -90° in the nadir
So obvious. Keep it to yourself.
@@zyro9922 helpful actually
Awesome explanation
Glad you liked it
Thank you for the explanation, but it would be great if you could help me understand, how east is left to the North,I am not able to understand that. Sorry if its very basic.
Imagine you’re standing outside facing south. East is to your left and west is to your right. Now imagine you look up at the sky while still facing south. East is still to your left and west is still toward your right. Hope that helps!
Great example yet I’ve always seen on my compass east to the right and west to the left in eastern USA.. why does yours show east left of the north ?
Go outside and face south. Hold your compass overhead. Which direction is East? :)
Yea,getting there.
my astronomy olympiad is tomorrow...would've been lucky if i had found you earlier 😭😭
Great Video! My only question now is: How can you use this coordinate system to determine for example the coordinates of a planet?
Thank you! The thing about this system is that while it can describe every point on the sky, Earth rotates underneath it, so everything in the sky appears to make a circular path around the celestial sphere (even the north star, though it's hard to notice). So this system will only describe the location of a star or planet at any given moment. There's another system we use that's independent of Earth's rotation, which I discuss in another video. Cheers!
¿Any idea how to locate the first aries point from any place you are on earth? Is for the purpose of practicing. Maybe some DIY clinometer gadget, that help me to locate where is the vernal point, and after that, finding a star by it´s declination and AR?
Or maybe a simpler method? By the way, i like your tutorials, they are very good!
Thanks! The first point of Aries / vernal equinox is by definition at RA: 0h; Dec: 0°. But as far as being able to point to it, it's really just a matter of familiarity with the sky and knowing where to look (hint: Pices :) )
@@LaunchPadAstronomy thank you. I mean, to practice searching it, without any programs or without 0 AR or 0 DEC of the EQ mount
Right, you wouldn't need a program. Just a good star map so you know what pattern of stars to look for. I'd pick a pattern that surrounds or "points" to the VE and practice looking for that.
What do you mean by imprinted? They knew that they moved but I’m printed makes us sound like they don’t move
From 3:00 onwards how would you say the celestial dome is being projected to the 2d image here? Is that an orthographic projection?
Why is that E and W are located in their opposite actual location? 🤔
Hope if I watch it 4-5 times it would be understandable
from 2:50 to 3:20, how can W & E be respectively on right and left of N -S line??? should it be other way round?
Yep
Its correct, you have to imagine lying down to understand this diagram. Your toes point south as seen in the video, and your head points north. That means your left hand faces east (which is why east is on the left) and your right hand faces west (which is why west is pictured to be right).
Bro! Danke!
Thank you
why your W and E are opposite?
Because we’re looking up :) To see what I mean, go outside and face south. North is behind you. Which way is east? Which way is west. Now look up at the sky and ask yourself which way is east and which way is west.
I came here just to understand how to focus my parabola to certain satellite.
-90 degrees at the *nadir at 1:55.
Move over three wise men...it's my turn! 😎
#Azimuthelevationcoordinatesystem
#AltitudeAzimuthcoordinatesystem
ok im 35 years old and im gunna ask a question?
when you said the sun is at its highest this is 12 but not to be confused with 12 noon cause of time zones....
when the sun is at that highest point is it like that for the hole rest of the world?
give or take a few hours depending on latitude and longitude?
i hope this helps. Altitude azimuth coordinate system is a local system. That is it is observer oriented. if you're in the North pole and then you're friend is at the south pole. Both of your Zeniths are not the same. you take a point directly above you as zenith (somewhere in the north), and your friend take a point directly above him/her as zenith(obviously in the south). if zeniths differ (they definitely differ from places that are far from each other, like two countries or two continents) the altitude and azimuth also differs.
So the sun for observer 1 in India is at its highest point only for him and people from his city or state and not for the observer 2 from china or japan.
quick question?
when you say observer 1 in India and observer 2 in China or Japan...
their all right next to eachother....
Where is Japan located in the World. This island nation of East Asia located in the Pacific Ocean is officially called the Nippon Koku, which means State of Japan. The neighboring countries of North Korea, South Korea, Russia and China are located west of Japan
India is positioned on the Indian subcontinent in south-central Asia, and is located in both the eastern and northern hemispheres. India bordered by the Arabian Sea, Bay of Bengal, Gulf of Mannar, Indian Ocean, and the countries of Pakistan, China, Nepal, Bhutan, Bangladesh and Burma (Myanmar).
why would the sun be any different for observer 2? from observer 1?
and Another thing ANTARCTICA IS ON the South pole..
NO ONE OR NOTHING LIVES IN ANTARCTICA
en.m.wikipedia.org/wiki/Sea_level
look up Vertical datum....heres the link
en.m.wikipedia.org/wiki/Geodetic_datum#Vertical_datum
A vertical datum is a reference surface for vertical positions, such as the elevations of Earth features including terrain, bathymetry, water level, and man-made structures.
The same position on a spheroid has a different angle for latitude depending on whether the angle is measured from the normal line segment center of the ellipsoid or the line segment straight from the center
Look up Geodetic coordinates
Note that the "flatness" of the spheroid is greater than that of the hole Earth; as a result, the corresponding difference between the "geodetic" and "geocentric"
In geodetic coordinates, the Earth's surface is approximated by an ellipsoid, and locations near the surface are described in terms of latitude , longitude and height.
Geodetic versus geocentric latitude
Geodetic latitude resp. altitude, is different from geocentric latitude, resp. altitude.
Geodetic latitude is determined by the angle between the equatorial plane and normal to the ellipsoid,
whereas geocentric latitude is determined by the angle between the equatorial plane and line joining the point to the centre of the ellipsoid
Unless otherwise specified, latitude is geodetic latitude.
The WGS 84 datum surface is an oblate spheroid with equatorial radius a = 6378137 m at the equator and flattening f = 1/298.257223563. The refined value of the WGS 84 gravitational constant (mass of Earth’s atmosphere included) is GM = 3986004.418×108 m³/s². The angular velocity of the Earth is defined to be ω = 72.92115×10−6 rad/s.
1:52 is should be nadir not zenith
Yep.
Earth is seriously flat ♥️
Dude your video is too complicated to understand
😅🤣😂🤣😅LOL!!! Stars do not rise in the east and set in the west.
Stars have been studied and recorded for centuries. In one years time they make a 360° rotation around the pole star, "Polaris". Did you not notice, @5:29 the one star located on the green "z" line, half way between the "z" and N, Polaris did NOT move off the line through out the entire night as every other star in the sky did. Affix Polaris half way between east and west, and half way between north and south and you will find this to be a FACT. 🙉🙈🙊😵💫😵💫
_''In one years time they make a 360° rotation around the pole star, "Polaris''_
Really one year? Try one day!
_""Polaris did NOT move off the line through out the entire night as every other star in the sky did''_
Wrong! Polaris rotated around the North Celestial Pole like the other stars. Polaris is not at the NCP. Look closely.
_''Stars have been studied and recorded for centuries. ''_
Yep, that's how we know how it all works. You should study them more.