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You can also set the field of view width and orientation, and display or hide the chart center coordinates and field of view while you are swiping or pinching the chart.
This sets the coordinate system used by SkySafari. These are the options that you can choose here:. Horizon - In the Horizon or "Alt-Az" coordinate system, altitude is how high in the sky something is, and azimuth is the direction around the horizon.
This system is used to show an object's position in the sky relative to your local horizon line. Equatorial - In the Equatorial or "RA-Dec" coordinate system, RA stands for Right Ascension, and Dec stands for Declination.
These coordinates are akin to longitude and latitude on the Earth. The Equatorial system is aligned with the Earth's equator and rotates with the Earth, so the coordinates of objects in the sky do not change as the Earth turns.
Hence, Equatorial coordinates are commonly used with printed star atlases. Ecliptic - In the Ecliptic coordinate system, longitude and latitude in the sky are akin to longitude and latitude on the Earth.
Ecliptic coordinates are defined by the plane of the Earth's orbit. The "equator" in this coordinate system is called the Ecliptic path or simply the Ecliptic.
It is a great circle traced by the Sun as the Earth orbits around it over the course of a year. Most objects in the solar system orbit the Sun in nearly the same plane as the Earth, so they usually appear near the ecliptic in the sky.
Ecliptic coordinates are the "natural" coordinates for the solar system, and are used extensively to describe the motion of planets, comets, and asteroids.
Please Note: Ecliptic coordinates are only available in SkySafari Plus and Pro. Galactic - In the Galactic coordinate system, longitude and latitude in the sky are akin to longitude and latitude on the Earth.
Galactic coordinates are defined by the plane of our Milky Way galaxy. Galactic coordinates are used most commonly for dynamical studies of stars, star clusters, galaxies, and other objects outside the solar system.
Please Note: Galactic coordinates are only available in SkySafari Pro. The horizon is only visible in the sky chart when using Horizon coordinates.
In other coordinate systems, it would appear as a confusing distraction that tilts and move as the Earth rotates - so SkySafari hides it. You may enter a new azimuth to precisely set the chart's center.
When using Equatorial or Ecliptic coordinates, the chart center RA and Dec are always assumed to be for the precession epoch specified in the Precession settings.
When using Horizon coordinates, the chart center altitude is assumed to be apparent i. If this option is turned off, the chart center altitude is assumed to be the true un-refracted altitude.
The largest field of view SkySafari can display is degrees, letting you see the entire sky at once. As the field of view increases past 90 degrees, the horizon becomes curved, due to the distortion caused by projecting the entire celestial sphere onto the flat screen.
In SkySafari Plus and Pro, the maximum field of view is 90 degrees when you are orbiting another solar system object. If you hold your mobile phone at arm's length, about 2 feet from your eyes, its 2-by-3 inch screen has an apparent size of 4.
So, if you set the field of view width to 4. The smallest field of view SkySafari can display is 0. One arcsecond is the best resolution a typical 8" backyard telescope can achieve under good observing conditions.
At its closest approach to Earth, the planet Venus appears about 1 arcminute across; Jupiter typically appears appears 45 arcseconds across.
Flip Horizontally: "On" flips the sky chart display horizontally to match the view in a telescope whose optical design results in a mirror-image view.
Flip Vertically: "On" flips the sky chart display vertically to match the view in a telescope whose optical design results in an upside-down view.
The settings in this view let you set the precession epoch of the Equatorial coordinate system that SkySafari uses to report the right ascensions and declinations of objects.
It also gives you precise control over the corrections SkySafari makes when computing the positions of objects in the sky.
Precession is a very slow "wobble" in the direction of the Earth's rotational axis, which takes about 25, years to complete. The Earth's axis defines both the Equatorial or RA-Dec coordinate system.
Because of precession, an object's right ascension and declination change over time - not because the object is moving, but because the coordinate system is moving.
Use Current Epoch: if turned on, SkySafari will always report right ascensions and declinations for the current year "epoch". If turned off, SkySafari will report RA and Dec for the precession epoch entered below.
Precession Epoch: the precession epoch or year for which equatorial coordinates should be reported, if "Use Current Epoch" is turned off.
Star atlases and ephemeris predictions e. Include Nutation: a small wobble in the orientation of the Earth's axis superimposed on its overall precessional motion.
Nutation causes a small change in an object's position, typically amounting to about arc seconds. Aberration: a systematic shift in star positions caused by the Earth's velocity through space.
It is a result of Einstein's theory of special relativity. Aberration causes objects to appear to shift in the direction that the Earth is moving by about 20 arc seconds, and affects all objects in the same part of the sky equally.
Proper Motion: a slow change in the positions of the stars due to their physical motion through space.
For all except the nearest stars, proper motion is only a small fraction of an arc second per year. When this option is turned on, a star's proper motion in right ascension and declination is displayed adjacent to its coordinates in the Object Info window.
Light Time: adjusts the positions of objects in the solar system for the finite velocity of light. We see Saturn in the sky not where it is right now, but instead where it was about 90 minutes ago, because light from Saturn requires about 90 minutes to travel to Earth.
For most objects, the effect of light time amounts to only a few arc seconds. Where light time makes a noticeable difference is in the positions of the outer planets' moons, and especially in planetary rotation.
Dynamic Time: also called Terrestrial Dynamic Time TDT , this is the standard for precise time keeping in astronomy. It differs from Universal Time UTC or GMT because the Earth's rotation is slowing irregularly, due to the gravitational influence of the Moon.
The accumulated difference between UTC and TDT is called Delta T, and its current value is about 67 seconds. Delta T affects the local time when an astronomical event is observed on Earth.
If you turn on the Dynamic Time option, SkySafari adds Delta T to the civil time obtained from your Android device before computing the positions of solar system objects.
If your leave Dynamic Time off, SkySafari will assume that there is no difference between UTC and TDT. This is technically incorrect, but it may be useful to compare SkySafari's results against another reference such as the Astronomical Almanac which tabulates an ephemeris of planetary positions against Dynamic Time instead of Universal Time.
Refraction: a distortion in an object's apparent altitude caused by the Earth's atmosphere, which bends light as it passes through.
Refraction only affects an object's apparent altitude, not its azimuth, right ascension, or declination. The settings in this section let you control how SkySafari displays dates, times, and celestial coordinates throughout the program.
These settings let you choose the format which SkySafari uses to display geographic longitude and latitude on the Earth's surface.
DDD MM SS. S, DD MM SS. S displays geographic longitude and latitude to the nearest tenth of an second. DDDDDD, DD. DDDDDD displays geographic longitude and latitude in decimal degrees to the nearest millionth.
These settings let you choose the format which SkySafari uses to display azimuth and altitude, which describe an object's position in the local horizon coordinate system.
S displays azimuth and altitude to the nearest tenth of an arcsecond. DDDDDD displays azimuth and altitude in decimal degrees to the nearest millionth.
These settings let you choose the format which SkySafari uses to display right ascension and declination. These coordinates describe an object's position in the equatorial coordinate system.
HH MM SS. SS, DD MM SS. S displays Right Ascension to the nearest hundredth of a second, and Declination to the nearest tenth of an arcsecond.
S, DD MM displays Right Ascension to the nearest tenth of a minute, and Declination to the nearest arcminute. HHHHHH, DD.
DDDDDD displays Right Ascension in decimal hours to the nearest millionth, and Declination in decimal degrees to the nearest millionth. These settings let you choose the format which SkySafari uses to display longitude and latitude in the ecliptic coordinate system.
S displays ecliptic longitude and latitude to the nearest tenth of an arcsecond. DDDDDD displays ecliptic longitude and latitude in decimal degrees to the nearest millionth.
These settings let you choose the format which SkySafari uses to display longitude and latitude in the galactic coordinate system.
S displays galactic longitude and latitude to the nearest tenth of an arcsecond. DDDDDD displays galactic longitude and latitude in decimal degrees to the nearest millionth.
The settings in this view let you control the use of color in your sky charts, and set some preferred behaviors for the app. Color Chart: Displays stars, planets, and other objects in the sky chart using full color.
Monochrome Chart: Displays stars, planets, and other objects in the sky chart using grayscale, with light objects on a dark background. Inverse Monochrome Chart: Displays stars, planets, and other objects in the sky chart using grayscale, with dark objects on a light background.
This makes the sky chart appear as a photographic negative, and may make it easier to see for those with poor vision.
Screen Brightness: Sets the brightness level of the screen. Turning this down, especially when using the Night Vision theme, may help preserve your visual dark adaptation, as well as save battery life.
When using the Night Vision theme, the sky chart is always drawn with red objects on a dark background or dark objects on a red background, if you're using Inverse Monochrome sky charts.
Again, this is to preserve your night vision - red light affects your dark adaptation much less than white light. These options are only found in the iOS version of SkySafari.
Android SkySafari users will find the equivalent options under the Appearance section, below. Ambient Sound: Controls the use of ambient sound in the app.
Tapping the entry will display a sound picker where you can choose from several ambient sounds or none at all. You can add you own custom ambient sounds to the list.
On iOS, place them in the Documents directory using iTunes file sharing. On Android, add them to the app's Sounds directory. Sound Effects: Controls the use of sound in the app.
When turned on, SkySafari plays sounds in response to events such as selecting a new object, connecting to a telescope, and so on.
When turned off, SkySafari does not play sounds. Tilt to Use Compass: When turned on, you can tilt your iPhone, iPad, or Android device upward to activate the compass.
Once activated this way, touch the screen anywhere to turn the compass off. Turn "Tilt to Use" off if you find that you're accidentally activating the compass too often, or if you prefer to activate it from the main toolbar.
Please Note: the compass will be turned off if you connect to a telescope, or lock on the telescope's position in the sky chart.
See the Scope Control view Help page for more information. If your device does not have a compass, this option is disabled. When the compass has been activated, the coordinate system will change to Horizon coordinates see above.
You can turn them off if you want to see the sky chart without any coordinates superimposed. Chart Animations: Provides animated panning to objects that you select and center in the sky chart.
Also provides smoother panning. When turned on, the chart "glides to a halt" when you remove your finger after swiping. When turned off, the chart stops moving instantly when you remove your finger.
Prevent Sleep: When turned ON, this prevents the device from sleeping while SkySafari is active. This allows a continuous connection to a telescope.
Redden Keyboard in Night Vision: When turned ON, SkySafari reddens the keyboard when displayed in Night Vision mode. Normally this is desired but you may want to turn this OFF when using a custom keyboard that is already reddened or when using a red film over the screen.
Toolbar Icon Order: Lets you rearrange the items on the main sky chart toolbar. Tap this item to show the list of toolbar items. Tap and drag the "grip" on the right side of an item in the list to rearrange it.
Tap Done when finished. Please Note: this feature is only available in SkySafari Plus and Pro for iOS. It's not available in the Android version.
These options let you control what happens when you rotate your device from portrait to landscape mode or vice-versa. Allow Auto Rotation: When turned on, the main sky chart and other views automatically rotate as you turn your device from portrait to landscape mode.
When turned off, all views stay in portrait mode, regardless of how you are holding your device.
On the iPad, this setting overrides the hardware rotation lock. In other words, if the auto rotation setting is turned off, all of SkySafari's views will remain in portrait mode even if the iPad's hardware rotation lock is disabled.
You may want to have other iPad apps auto-rotate, but keep SkySafari in portrait orientation. Toolbar in Landscape: When turned on, the main toolbar and status bar appear when your device is held in Landscape mode, as well as in Portrait mode.
If this setting is turned off, the toolbar will disappear in Landscape mode, giving you a "full screen" sky chart view.
SkySafari can notify you about satellite events and planet risings. These notifications are generated for next 24 hour period each time SkySafari is brought to the foreground.
If you go for a day or so without using SkySafari, the notifications will stop. Planet risings: When turned on, SkySafari will notify you of Sun, Moon and planet risings.
Bright Satellites and Flares: When turned on, SkySafari will notify you when the International Space Station ISS , the Tiangong Space Station, or the Hubble Space Telescope HST is rising for a visible pass.
It will also notify you when an Iridium satellite is about to flare. Do Not Disturb: When turned on, no notifications will be delivered during the specified time period.
The settings in this view let you control the display of the local horizon, and the sky background. In SkySafari Plus and Pro, note that the horizon is not visible if you are not displaying the sky chart using horizon coordinates!
Use horizon coordinates to show the horizon. When turned off, most of the other settings in this section are disabled.
The horizon line itself is still visible. You can select a specific panorama from the list in the section below. Show Cardinal Points: Sets whether the cardinal points are displayed along the horizon line.
Cardinal points label the north, east, south, and west directions on the horizon. Show Daylight: When turned on, the sky color changes with the cycle of day and night.
When turned off, the sky background color is always black. Show Horizon Glow: When turned on, the horizon is drawn with a soft glow that increases with daylight to simulate atmospheric haze.
When turned off, the horizon is always drawn against a clear sky background. Horizon Altitude: Lets you determine when objects rise and set above a specific altitude.
Objects below the altitude you select will be considered below the horizon. You can use this to quickly identify objects which - even though technically above zero degrees altitude - are still too low in the sky to be easily observed.
It's usually not worthwhile to observe objects below an altitude of 10 - 15 degrees, since they are lost in atmospheric haze.
This section lists the horizon panoramas that are available in SkySafari. The currently-selected panorama is shown with a check mark.
The panorama is only displayed if you've selected Panoramic Image display option above. Choosing any item from the list of horizon panoramas will automatically select this option!
You can create your own horizon panorama - for instance, an image of your own back yard, or your favorite observing site.
You can then import it into SkySafari, to show the sky as it realistically appears from your location.
To do this, first create a panorama using your digital camera, and a panorama-stitching program like Adobe Photoshop, Canon PhotoStitch, or DoubleTake for macOS.
Resize your panorama image to dimensions of exactly pixels wide x pixels tall. When you're done photoshopping, save your panorama as a bit RGBA color image file in PNG format.
Make sure your image contains an alpha or transparency layer that accurately indicates the parts of your panorama that are opaque the ground, trees, buildings, etc.
If you are using SkySafari on an iPhone, iPad, or iPod touch, you can import your horizon panorama using iTunes file sharing.
To do this, connect your iPhone or iPad with a USB cable to a computer running iTunes. Select your iOS device when it appears in iTunes, then find the "Apps" section that lists all the apps on your device.
Choose SkySafari from the list of apps. Add your horizon PNG image file to the list of SkySafari Documents displayed by iTunes, or drag and drop it into the list.
If everything works correctly, your image will then appear in the list of horizon panoramas in SkySafari. You can select and display it just like SkySafari's other built-in horizon panoramas.
If your horizon panorama doesn't appear in SkySafari's list, make sure it's in PNG format, and that its name ends with ". Make sure its dimensions are x , and that's a bit RGBA color image with an alpha transparency layer.
If all else fails, you can email your image to Simulation Curriculum technical support, and we can try to debug it for you.
If you are using SkySafari for Android, you can import your horizon panorama using your SD card. To do this, connect your Android device with a USB cable to a computer.
Then mount your Android's SD card on your computer, so it appears as a disk. Look for a SkySafari, SkySafari Plus, or SkySafari Pro folder on the root top level of your SD card, depending on which version of SkySafari you own.
Then copy your horizon PNG image file into the Horizon Panoramas folder within this folder. For example, if you own SkySafari Pro, copy your panorama to the following directory on your SD card:.
The settings in this view control the display of planets, moons, and other "minor bodies" in the solar system asteroids and comets , as well as artificial Earth-orbiting satellites.
Show Planets: Displays planets and moons in the sky chart. Planet grids show the orientation of the planet's equator and rotational axis.
Their north poles are drawn as bold lines; south poles are shown with lighter lines. Note: this option is only available in SkySafari Plus and Pro.
When turned off, planets shown as fully illuminated, without any night side shading. To see these objects' surfaces unobscured by clouds, turn off this option.
This option can slow performance when zoomed in a planet's disk, but generates a very pretty view. Spacecraft that have landed on other solar system objects, and cities on Earth, are indicated with a green dot and label.
Only the largest features are labelled when a planet's disk appears very small; to see more labels for smaller features, zoom in on the planet.
All of these are small, asteroid-sized objects that are only visible in large professional telescopes. Note: this option is only available in SkySafari Pro.
Show Planet Orbits: Shows orbital paths of the major planets around the Sun. Since the planets orbit in the nearly the same plane as the Earth the Ecliptic plane , their orbits appear near the Ecliptic line - the Earth's orbit as seen from the Earth - in the sky.
Show Moon Orbits: Shows orbital paths of the moons around their primary parent planet. You may need to zoom in on a planet to see its moon orbits; Mercury and Venus have no moons!
Selected Object Orbit: Shows the orbit of the selected planet, moon, asteroid, comet, or satellite. You need to select such an object and turn on this option to show its orbit.
Selected Object Path: Shows the apparent path of a solar system object across the sky, with its position at specific dates labelled.
The solar system object must be selected, and you must be viewing it from the Earth's surface, in order to see the path.
When this option is turned on, the Earth's or Moon's umbral and penumbral shadows are shows as concentric circles. Inside the smaller umbral shadow, the Sun is totally hidden; inside the larger penumbral shadow, the Sun is only partially blocked.
This can be helpful for simulating lunar and solar eclipses, and illustrating the difference between total and partial eclipses.
Magnitude Limit: This item lets you set the faintest planets, moons, asteroids, comets, and spacecraft that the sky chart will display.
You can use this item to filter out the many hundreds of faint asteroids and comets that are not observable in backyard telescopes - or you may want to show them all!
Planet Magnification: This slider lets you magnify the Solar System's major planets by a factor of up to 10,x their true size.
The planets are very small compared to the space between them. This option is useful for showing comparative views of the planets from different perspectives.
Moon Magnification: This slider lets you magnify the moons of the planets by a factor of up to x over their true size. Since most moons are very small compared to their primary planet, this option lets you exaggerate them to make easier comparative views.
SkySafari normally updates its database of asteroid, comet, and satellite orbits once per week. In SkySafari Plus and Pro, you can tap this button to download new asteroid, comet, and satellite orbit data any time your iOS or Android device is connected to the internet.
SkySafari will download the following files:. These downloads should take 10 - 30 seconds if you are connected to the internet by Wi-Fi, and a 1 - 3 minutes if you are connected by a cellular data network.
If successful, SkySafari will report the number of asteroid, comet, and satellite orbits that it has updated. If that number is zero, it probably means SkySafari can't connect to the on-line data sources for this information because the server is down, or because you are not connected to the internet, etc.
Updating your orbit data every month or so is a good idea. It will ensure that SkySafari's position predictions are accurate. This is especially true for satellites, whose orbits change rapidly due to atmospheric drag, and due to perturbations from the Earth's non-spherical gravity field.
Updating also ensures that as new objects are launched - or discovered! The settings in this view let you control the display of stars, including the number of stars that will be shown, the size and color of the star symbols, and the labelling of stars with their names or catalog numbers.
Show Stars: Sets whether stars are displayed in the sky chart. When turned off, most of the other settings in this view are disabled. Magnitude Limit: Sets the star magnitude limit.
This determines the faintest stars that are visible in the sky chart. The brighter a star, the lower its magnitude.
The faintest stars visible to the naked eye are about magnitude 6. Very bright stars can have negative magnitudes; the brightest star in the sky, Sirius, is magnitude The magnitude limit will change automatically as you zoom the sky chart in and out.
When zoomed in, fainter stars are displayed. Proper Names: Sets whether proper names are displayed for stars when possible.
When turned off, stars' names are displayed using their catalog numbers e. Greek Symbols: Sets whether greek symbols are displayed for stars which have Bayer letters.
When turned off, greek letters are spelled out in English, e. Name Density: Sets the percentage of stars whose names are displayed on the sky chart.
Double Stars: displays double stars with their component identifiers A, B, C, D, etc. For binary stars with known orbits, this option also displays the orbital path of the secondary component relative to the primary.
Turn this option on, then zoom in on Sirius or Alpha Centauri, and take a look! Symbol Size: Sets the size of the star symbols.
Use small, subtle star symbols to give the screen the appearance of the night sky. Color Intensity: Sets the displayed intensity of the color difference between stars of different spectral types.
The settings in this view let you control the display of star cluster, nebulae, and galaxies - including the selection of deep sky objects that are shown, and the labelling of objects with their names or catalog numbers.
Show Objects: Draws symbols for star clusters, nebulae, and galaxies in the sky chart. Show Images: Displays images of deep sky objects in the sky chart.
When turned on, Digitized Sky Survey images of several hundred best-known deep sky objects are drawn at their true size and orientation in the sky chart.
Deep sky images can be displayed independently of deep sky object symbols above , and vice-versa. Best-Known Only: Sets whether only the best-known deep sky objects are shown in the sky chart.
These objects include the Messier objects, the Caldwell objects, and any other deep sky objects with a proper or common name.
The Messier Catalog is a famous list of prominent deep sky objects compiled by the 18th century astronomer Charles Messier. The Messier catalog includes some of the most prominent star clusters, nebulae, and galaxies visible from the northern hemisphere, such as the Hercules Cluster M 13 and the Whirlpool Galaxy M The Caldwell Catalog is a modern complement to Messier's list, compiled in by the British astronomer Patrick Caldwell-Moore.
It includes additional "Messier-quality" deep sky objects which Messier missed, many because they are only observable from the southern hemisphere.
Together, the Messier and Caldwell lists include most of the deep sky objects easily visible in backyard telescopes from both hemispheres.
Show in Wide Fields: allows deep sky objects to be displayed when the field of view is wider than 45 degrees. This option is turned off by default, since deep sky objects can only be seen through binoculars or telescopes, which have very small fields of view.
However, turning this option on may let you see the distribution of for example galaxies across wide areas of the sky.
Magnitude Limit: Sets the deep sky object magnitude limit. This determines the faintest deep sky objects that are visible in the sky chart.
The brighter an object, the lower its magnitude. When zoomed in, fainter objects are displayed. Intensity: Sets the brightness used to display deep sky object symbols and names.
Show Names: Sets whether deep sky objects' names are displayed next to the objects in the sky chart. Proper Names: Sets whether proper names are displayed for deep sky objects, when possible.
When turned off, deep sky objects names are always shown using catalog numbers e. Name Density: Sets the percentage of deep sky objects whose names are displayed on the sky chart.
Globular Clusters: Sets whether globular clusters are displayed in the sky chart. These are dense concentrations of stars, typically containing tens of thousands to millions of stars.
These massive clusters are among the oldest objects in our galaxy. Examples are M 13 in Hercules and M 22 in Sagittarius. Bright Nebulae: Sets whether bright nebulae are displayed in the sky chart.
These are glowing clouds of gas usually found in the disk of the Milky Way. These nebulae glow either from the reflection of light from nearby stars or from the emission of light produced by nearby stars heating the nebulae.
Examples are M 42 the Great Orion Nebula in Orion and M 20 the Trifid Nebula in Sagittarius. Dark Nebulae: Sets whether dark nebulae are displayed in the sky chart.
These are opaque clouds of cold dust which obscure the light from the stars behind them. They are mostly located along the Milky Way.
Examples are B 33 the Horsehead Nebula in Orion, and the Coal Sack in Crux. Planetary Nebulae: Sets whether planetary nebulae are displayed in the sky chart.
These are expanding shells of gas expelled from a star late in its life. A round, planet-like appearance led to the name "planetary nebulae" in the eighteenth century, though there is no actual connection with planets.
Examples are M 57 the Ring Nebula in Lyra and M 27 the Dumbbell Nebula in Vulpecula. Galaxies: Sets whether galaxies are displayed in the sky chart.
Galaxies are immense star systems outside of our own Milky Way galaxy; many are larger than our own.
The total number of galaxies is in the billions, and they extend to the edge of the known universe. Most galaxies are classified as spiral galaxies, elliptical galaxies, or irregular galaxies, based on their appearance.
Examples are M 31 spiral in Andromeda, M 87 elliptical in Virgo, and the Small Magellanic Cloud irregular. The Milky Way is the visible concentration of stars, star clusters, bright gas clouds, and dark dust lanes that lie along the plane of our galaxy in the sky.
The settings in this view control how the Milky Way is displayed in the main sky chart. Show Milky Way: Turns the Milky Way off or on.
When turned off, the Milky Way is not drawn, and most of the other settings in this section are disabled.
This full-sky H-alpha map is a composite of the Virginia Tech Spectral line Survey VTSS in the north and the Southern H-Alpha Sky Survey Atlas SHASSA in the south.
The view shows the distribution of glowing ionized hydrogen gas clouds in our galaxy's star-forming regions. The colors in this image represent specific wavelengths of infrared light.
Cyan blue-green represents light emitted predominantly from stars and galaxies at a wavelength of 3. Green and red represent light mostly emitted by dust at 12 and 22 microns, respectively.
Galactic dust clouds are visible at these wavelengths. Constructed from observations of the sky at wavelengths spanning microns to 1 cm GHz to 30 GHz.
The Haslam MHz map is derived from 4 separate surveys. In this 3-color image, red is 0. This view shows how the sky appears at energies greater than 1 billion electron volts GeV according to five years of data from NASA's Fermi Gamma-ray Space Telescope.
For comparison, the energy of visible light is between 2 and 3 electron volts. Please Note: The options to show the Milky Way in Hydrogen Alpha thru Gamma Ray wavelengths are only available in SkySafari Pro.
Intensity: Sets the brightness level of the Milky Way when shown as a filled area or realistic image. Fade in Small Fields: When turned on, the Milky Way's intensity will fade to zero as the field of view decreases from 10 to 1 degrees wide.
It is often not useful to show the Milky Way in very small fields of view. The settings in this view let you show or hide grids which display the major celestial coordinate systems, as well as the reference lines and points that those systems are based on.
Show Grid: Sets whether a celestial coordinate grid is displayed on the sky chart. When turned on, the following items are enabled:.
Celestial Equator: Sets whether the celestial equator is displayed on the sky chart. The celestial equator is the plane of the Earth's equator projected onto the celestial sphere.
Galactic Equator: Sets whether the galactic equator is displayed on the sky chart. The galactic equator is the plane of the Milky Way galaxy projected onto the celestial sphere.
Ecliptic Path: Sets whether the Ecliptic path is displayed on the sky chart. The Ecliptic is the plane of the Earth's orbit projected onto the sky.
It is also the annual path of the Sun around the celestial sphere. Meridian Line: Sets whether the meridian is displayed on the sky chart.
The meridian is the projection of your longitude on Earth onto the celestial sphere. It extends from the northern horizon through the zenith to the south cardinal point on the horizon.
An object is said to transit when it crosses the meridian. Celestial Poles: Sets whether the celestial poles are displayed on the sky chart.
The celestial poles are where the Earth's polar axis i. The north and south celestial poles are currently in the constellations Ursa Minor and Octans, but they move slowly over the centuries due to precession.
Galactic Poles: Sets whether the galactic poles are displayed on the sky chart. The north and south galactic poles are where a line perpendicular to the plane of the Milky Way galaxy intersects the celestial sphere.
They are currently located in the constellations Coma Berenices and Sculptor, respectively. To switch the sticks: Take the battery out from the transmitter, Loosen the four screws that hold the rear cover shown in green on left.
Page Function Descriptions FS-l6 Digital Proportional Radio Control System 5. Function Descriptions 5. The right stick controls pitch and roll, the left stick controls throttle and yaw.
For example, if a servo has to be mounted upside down due to space restrictions within a model, this function can be used to correct its movement so that it matches up with the user controls.
Page Display FS-l6 Digital Proportional Radio Control System 5. Warning If powered on, it will rev up and cause unexpected results. Page Throttle Curve rudder will move 2.
Set the offset, the offset changes the center of the slave channel in relation to the master. Page Throttle Hold 5. Setup: 1. Use the "OK" key to change between settings.
Use the "UP" and "DOWN" keys to turn the function on or off and increase and decrease the hold percentage. Page Helicopter Function FS-l6 Digital Proportional Radio Control System 6.
Helicopter Functions 6. Page System 7. System 7. The system can store up to 20 models. Page Student Mode FS-l6 Digital Proportional Radio Control System 7.
Page Aux Switches 7. This is usually done when a new switch or knob has been. Use the "OK" key to cycle through the selection of switches and knobs.
Page Rx Setup FS-l6 Digital Proportional Radio Control System 8 RX Setup 8. The available protocols are: RF Protocol Receiver AFHDS R9B,R6B,R6C,GR3E,GR3F AFHDS 2A A3, A6,X6, iA4B, iA6, iA6B, iA10, iA10B Switching Between AFHDS 2A and AFHDS: 1.
Page Sensors List Use the "UP" and "DOWN" to choose a channel and press "OK" to enter its failsafe settings. Use the "UP" and "DOWN" to turn the failsafe on or off.
Move the channels control surface to the desired position and hold the "CANCEL" key to confirm and exit. Aktualisiert: Mittwoch, Juli Weitere Sky Angebote:.
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