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8

S

ky conditions

S

electing an observing site

Sky conditions are usually defined by two atmospheric characteristics, seeing, or the steadiness of the air, 
and transparency, light scattering due to the amount of water vapour and particulate material in the air. When 
you observe the Moon and the planets, and they appear as though water is running over them, you probably 
have bad "seeing" because you are observing through turbulent air. In conditions of good "seeing", the stars 
appear steady, without twinkling, when you look at them with unassisted eyes (without a telescope). Ideal 
"transparency" is when the sky is inky black and the air is unpolluted.

Travel to the best site that is reasonably accessible. It should be away from city lights, and upwind from any 
source of air pollution. Always choose as high an elevation as possible; this will get you above some of the 
lights and pollution and will ensure that you aren't in any ground fog. Sometimes low fog banks help to block
light pollution if you get above them. Try to have a dark, unobstructed view of the horizon, especially the 
southern horizon if you are in the Northern Hemisphere and vice versa. However, remember that the darkest
sky is usually at the "Zenith", directly above your head. It is the shortest path through the atmosphere. Do 
not try to observe any object when the light path passes near any protrusion on the ground. Even extremely 
light winds can cause major air turbulence as they flow over the top of a building or wall. If you try to observe 
on any structure, or even a sidewalk, movements you make may cause the telescope to vibrate. Pavement 
and concrete can also radiate stored  heat which will affect observing. 

Observing through a window is not recommended because the window glass will distort images considerably.
And an open window can be even worse, because warmer indoor air will escape out the window, causing
turbulence which also affects images. Astronomy is an outdoor activity.

The best conditions will have still air, and obviously, a clear view of the sky. It is not necessary that the sky 
be cloud-free. Often broken cloud conditions provide excellent seeing. Do not view immediately after sunset. 
After the sun goes down, the Earth is still cooling, causing air turbulence. As the night goes on, not only 
will seeing improve, but air pollution and ground lights will often diminish. Some of the best observing time 
is often in the early morning hours. Objects are best observed as they cross the meridian, which is an 
imaginary line that runs through the Zenith, due North-South. This is the point at which objects reach their 
highest points in the sky. Observing at this time reduces bad atmospheric effects. When observing near 
the horizon, you look through lots of atmosphere, complete with turbulence, dust particles and increased 
light pollution.

Telescopes require at least 10 to 30 minutes to cool down to outside air temperature. However this may 
take longer if there is a big diference between the temperature of the telescope and the outside air. This 
minimizes heat wave distortion inside telescope tube (tube currents). Allow a longer cooling time for larger 
optics. If you are using an equatorial mount, use this time for polar alignment. 

Do not expose your eye to anything except red light for 30 minutes prior to observing. This allows your pupils 
to expand to their maximum diameter and biochemical light adaptation to occur. It is important to observe 
with both eyes open. This avoids fatigue at the eyepiece , allows you to check against reference material, 
and is a good habit to develop if you sketch at the eyepiece.. If you find this too distracting, cover the non-
used eye with your hand or an eyepatch. Use averted vision on faint objects: The center of your eye is the 
least sensitive to low light levels. When viewing a faint object, don't look directly at it. Instead, look slightly
to the side, and the object will appear brighter.

C

hoosing the best time to observe

C

ooling the telescope

U

sing your eyes

OBSERVING THE SKY

Содержание 767AZ1

Страница 1: ...ocus Knob Finderscope Bracket Focuser Dust Cap Mask Secondary Mirror Position Altitude Fine Adjustment Control Yoke Mount Telescope Main Tube Yoke Locking Knob Altitude Lock Knob Primary Mirror Position Azimuth Lock Knob Accessory Tray Tripod Leg Height Adjustment Clamp Finderscope Allignment Screw ...

Страница 2: ... 5 3 3 4 4 4 5 5 5 6 7 7 7 8 8 8 8 8 8 9 TABLE OF CONTENTS Read the entire instructions carefully before beginning Your telesope should be assembled during daylight hours Choose a large open area to work to allow room for all parts to be unpackaged Before you begin Never use your telescope to look directly at the sun Permanent eye damage will result Use a proper solar filter for viewing the sun Wh...

Страница 3: ... each tripod leg to the bottom of the yoke mount using the machine screws with the washers and wingnuts Align each leg so that the hinge for the accessory tray faces inwards Be careful not to over tighten the wingnuts and damage tripod legs ATTACHING THE ACCESSORY TRAY Fig 3 1 Attach accessory tray to hinges on tripod legs using the small machine screws and wing nuts Flange fits under accessory tr...

Страница 4: ...day light when it s easier to locate objects If it is necessary to refocus your finderscope sight on an object that is at least 500 yards metres away Twist the end of the finderscope until focus is reached Fig 11 1 Choose a distant object that is at least 500 yards away and point the main telescope at the object Adjust the telescope so that the object is in the centre of the view in your eyepiece ...

Страница 5: ...oducing the same magnification However its greatest value may be that a Barlow can potentially double the number of eyepiece in your collection Focusing Fig c Slowly turn the focus knobs under the focuser one way or the other until the image in the eyepiece is sharp Fig c The image usually has to be finely refocused over time due to small variations caused by temperature changes flexures etc This ...

Страница 6: ...d therefore the stars are constantly moving so to track with this mount you need to constantly nudge the optical tube in both azimuth and altitude to keep the object in the field In reference material for your local position the altitude will be listed as degrees minutes seconds above or below your horizon Azimuth may be listed by the cardinal compass points such as N SW ENE etc but it is usually ...

Страница 7: ... bit from person to person is less until your eyes become fully dark adapted and decreases as you get older To determine an exit pupil you divide the diameter of the primary of your telescope in mm by the magnification For example a 200mm f 5 telescope with a 40mm eyepiece produces a magnification of 25x and an exit pupil of 8mm This combination can probably be used by a young person but would not...

Страница 8: ... also affects images Astronomy is an outdoor activity The best conditions will have still air and obviously a clear view of the sky It is not necessary that the sky be cloud free Often broken cloud conditions provide excellent seeing Do not view immediately after sunset After the sun goes down the Earth is still cooling causing air turbulence As the night goes on not only will seeing improve but a...

Страница 9: ...s New York 1984 Astrophotography An Introduction by H J P Arnold Sky Publishing Corp Cambridge MA Sky Telescope Observer s Guides Series ed Leif J Robinson 1995 Observational References Magazines Astrophotography for the Amateur by Michael Covington Cambridge University Press Cambridge UK 2nd edition 1999 Splendors of the Universe A Practical Guide to Photographing the Night Sky by Terence Dickins...

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