Perfect Horizon 1 0 17

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Perfect Horizon 1 0 17

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Enter http://10.0.0.1 into your browser and press enter. Or click this button.

Top 10.0.0.1 Logins

Username	Password
admin	password
admin	admin
none	none
cusadmin	highspeed
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none	public
cusadmin	password

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Cisco

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Login To Your Router

Login Info - You need to know your login information to get into your router. Look at the List above to see common default username and passwords. If you know what router you have, you can find it here for more detailed info. If you have changed the username and password on the router, but don't remember it, you will need to Reset Your Router.

Reset Your Router

Can't Login to Router?

On the back or bottom of the router there should be a small hole. You will need to fit something into that hole to press the reset button that is there, such as a paperclip.

With the router plugged in, press and hold the reset button for 30 seconds. After releasing the button, wait for the router to power on, and attempt to login to the router again.

If the above did not work, you can try what is known as a 30-30-30 reset. Get comfortable, because you will need to hold the reset button for 90 seconds. Press and hold the reset button for 30 seconds. While continuing to hold the reset button, unplug the router, wait another 30 seconds, then plug it back in. Continue to hold the reset button for another 30 seconds.

Can Login to Router?

Look for links such as 'Advanced', 'Admin', 'System' and click on them.

On the above pages, click on a link that says 'Factory Reset', or 'Factory Defaults'.

Most Common Brands Using 10.0.0.1

Brand	Count
Cisco	6
SMC	6
technicolor	4
Airlink101	2
Intelbras	1
Netcomm	1
Belkin	1
i-connect	1
Alfa	1
ALFA Network	1

By Konstantin Bikos

The horizontal coordinate system, also known as the Alt/Az system, is a method for describing the exact position of objects in the sky, such as planets, the Sun, or the Moon.

This system is also used by timeanddate.com to describe the positions of the Sun, the Moon, and the planets of our solar system.

Distance Irrelevant

Based on two coordinates, altitude and azimuth, the horizontal coordinate system provides the general direction in which to find a celestial object. Although the distance of the visible planets, stars, and galaxies differs by billions of light years, the system ignores the depth of space as an object's distance is irrelevant for the purpose of locating it in the sky.

The Celestial Sphere

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Imagine the sky as a dome towering above you, its edges resting on the horizon. This is the backdrop the horizontal coordinate system uses to map the sky and describe the positions of its objects. To compare, the geographic coordinate system uses the Earth's surface as a backdrop to determine a position.

In effect, the system also includes the invisible half of the sky that is below the horizon. The dome above you is called the upper hemisphere and the invisible part of the sky below you is the lower hemisphere. Together, they form the celestial sphere, an imaginary globe surrounding you, with you at its center.

The Celestial Horizon

The horizontal line separating the two hemispheres is called the celestial horizon. It is a continuation into space of the imaginary plane created between you and the horizon around you. If the Earth were flat, the celestial horizon would follow the terrestrial plane. However, since we are living on a globe, it is defined as the imaginary plane perpendicular to the direction of gravity at the observer's location.

Altitude and Azimuth

Just as the geographic coordinate system uses latitude and longitude to define any location on Earth, the horizontal coordinate system provides altitude and azimuth angles to locate objects in the sky.

Altitude or elevation: The angle the object makes with the horizon. Objects that seem to touch the horizon have an altitude of 0°, while those straight above you are at 90° (see illustration 2). Anything below the horizon has a negative angle, with -90° describing a location straight down. In this and other celestial coordinate systems, the location straight above you is called zenith while the point exactly below you is referred to as nadir.
Azimuth: The object's cardinal direction, such as north, east, south, or west. It is specified as the horizontal angle the object makes with a reference direction, such as true north (see illustration 3). Imagine a vertical line connecting the object with the horizon. The azimuth is the angle between the spot where that line crosses the horizon and the reference direction. If true north is used as reference, it is represented by an azimuth of 0°, and angle values increase towards the east. This means, for example, that an azimuth of 180° means due south.

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Example: If Venus is at an altitude of 45°, with an azimuth of 270°, as seen from your location, this means that you will find the planet in a western direction at an elevation exactly half way between the horizon and the zenith.

Note: Since true north is the reference direction most commonly used, all azimuths displayed on timeanddate.com refer to true north. However, some astronomical conventions still follow the traditional method of using true south as a starting point for azimuth angles.

Depends on Location and Time

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The horizontal coordinate system owes its name to the fact that it is based upon the observer's horizon. As the horizon's limits – and, therefore, the portion of the sky you see – depends on your location, an object's altitude and azimuth angles shift as you move to a different spot on the Earth's surface. What's more, most celestial objects move across the sky, so their coordinates change as time goes by, even if you stay put.

This means that the angles provided by the horizontal coordinate system apply only to a specific location at a specific time.

Doesn't Work at the Poles

While the horizontal coordinate system provides an easy way to define a location in the sky at almost any location on Earth, it is not possible to define an azimuth at the North Pole or the South Pole, rendering the system useless there.

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At the North Pole, for example, it is easy to find the Polaris, the North Star. It is very close to the zenith position, so you have to look straight up to see it. However, you will not be able to describe the location of any other star using an azimuth angle because all of them are south of Polaris.