March deep sky watch

posted: 22 February 2024

Introduction

By no means complete, March’s mini guide that follows provides notes for exploring various interesting deep sky objects (DSOs) and lists other items of interest useful to the amateur astronomer.

Entries can be interpreted based on designation, description and magnitude as follows.

Designation – Description – Magnitude:

     Telescopes 10-inch aperture minimum.

★★    Telescopes 6-inch to 9-inch aperture.

★★★  Binoculars (50mm+ aperture) and telescopes
         3-inch to 5-inch aperture.

A collimated instrument, favourable atmospheric conditions, dark skies and dark-adapted eyes are assumed.
M68 globular cluster. Credit: ESA/Hubble & NASA.

About M68 globular cluster

The NASA/ESA Hubble Space Telescope offers this delightful view of the crowded stellar encampment called Messier 68, a spherical, star-filled region of space known as a globular cluster. Mutual gravitational attraction amongst a cluster’s hundreds of thousands or even millions of stars keeps stellar members in check, allowing globular clusters to hang together for many billions of years.

Astronomers can measure the ages of globular clusters by looking at the light of their constituent stars. The chemical elements leave signatures in this light, and the starlight reveals that globular clusters' stars typically contain fewer heavy elements, such as carbon, oxygen and iron, than stars like the Sun. Since successive generations of stars gradually create these elements through nuclear fusion, stars having fewer of them are relics of earlier epochs in the Universe. Indeed, the stars in globular clusters rank among the oldest on record, dating back more than 10 billion years.

More than 150 of these objects surround our Milky Way galaxy. On a galactic scale, globular clusters are indeed not all that big. In Messier 68's case, its constituent stars span a volume of space with a diameter of little more than a hundred light-years. The disc of the Milky Way, on the other hand, extends over some 100 000 light-years or more.

Messier 68 is located about 33,000 light-years from Earth in the constellation Hydra (The Female Water Snake). French astronomer Charles Messier notched the object as the sixty-eighth entry in his famous catalogue in 1780.

Hubble added Messier 68 to its own impressive list of cosmic targets in this image using the Wide Field Camera of Hubble’s Advanced Camera for Surveys. The image, which combines visible and infrared light, has a field of view of approximately 3.4 by 3.4 arcminutes.

Image credit: ESA/Hubble & NASA.

March deep sky objects
Leo constellation
M95 The M95, M96 and M105 form the Leo Galaxy Group. The M95 has a bright core surrounded by a granular halo. In dark skies the M95 may reveal its spiral structure. 11.0 ★★
M96 The M96 and M95 can be seen in the same field of view in binoculars or at low magnifications in instruments. It shows a bright extended core with a stellar nucleus. 10.5 ★★
M105 The M105 has a bright core that fades towards its edges. At the centre of the galaxy lies a heavy object 50 million times the mass of the Sun. 11.0 ★★★
NGC3384 Elliptical galaxy in the M105’s vicinity. 10.2 ★★
NGC3389 Spiral galaxy in the M105’s vicinity. 12.5 ★★
M65 Spiral galaxy that along with the M66 and NGC3628 form the Leo Triplet. A 12-inch instrument is required to observe any detail. 10.5 ★★★
M66 A spiral galaxy with a bright star-like nucleus. Some detail will be seen in a moderate size instrument. 10.0 ★★
NGC3628 Spiral galaxy in the Leo Triplet. A 10-inch is needed to see all members of the Triplet. 10.9 ★★
NGC3190 Faint galaxy surrounded by a group of equally faint galaxies including the NGC3193, NGC3185 and the rather faint NGC3187. 11.3
NGC3651 Galaxy in the centre of a group of galaxies that includes the NGC3753 and others. 15.3
NGC3753 Spiral galaxy. 14.5
NGC3825 Barred spiral galaxy. 13.7
NGC3822 Spiral galaxy. 13.8
NGC3521 Spiral galaxy that shows a bright core in small instruments. Large instruments and CCD cameras will reveal a wealth of detail. 10.0 ★★
NGC3810 Spiral galaxy within the reach of an 8-inch instrument. 10.8 ★★
Ursa Major constellation
M109 Barred spiral galaxy. Small instruments will show a bright core and elongated halo. 11.0 ★★
NGC3953 Barred spiral galaxy close and similar to M109. 10.7 ★★
NGC3079 Galaxy close to the Double Quasar 0957 + 561A/B. Mottling becomes evident in 10 inch instruments. 11.2 ★★
Coma Berenices constellation
NGC4565 Edge-on galaxy and one of the brightest in the Coma I Galaxy Cloud. Visually it appears as a long streak of light with a bright centre and with a prominent dark lane running across its length. Its dark lane is better resolved in large instruments and by CCD cameras. 9.6 ★★★
NGC4175 Part of The Box (Hickson61) this is an elongated galaxy. 14.2
Covus constellation
NGC4038 One of a pair of interacting galaxies known as the Antennae. As it stays low in the sky an 8 or 10-inch instrument is required to observe this galaxy. 11.5 ★★
NGC4039 Along with the NGC4038 they present a unique site. A 20-inch instrument will show the twisted tails that make the Antennae so distinct. Photographing the Antennae can be rewarding and will require a 10-inch instrument, a CCD camera and long exposures. 11.0 ★★
NGC4361 Planetary nebula that is difficult to discern due to its low position in the horizon. 10.8 ★★
NGC4782 Paired with the NGC4783 these two interacting galaxies will appear as a small and faint patch of light. 12.3 ★★
M68 Globular cluster low in the sky, viewable but unresolved in binoculars. Instruments will reveal its mottled core and resolve the stars in its periphery. 9.0 ★★★
Canes Venatici constellation
M106 A large, bright galaxy visible through binoculars. Large instruments will reveal two spiral arms extending from the core to its peripheral halo. CCD cameras will capture bright blue star concentrations at the ends of the spiral arms. 9.50 ★★★
Crater constellation
NGC3962 A galaxy surrounded by a number of other fainter galaxies. 11.3 ★★
Virgo constellation
M104 The Sombrero Galaxy is a nearly edge-on galaxy with a large bright core and a dark lane that runs across its length cuts the galaxy in two. This galaxy takes magnification well and small instruments will show both its core and pointed ends. 9.50 ★★★
NGC4697 An elliptical galaxy with a less noticeable core. 10.5 ★★
Designation, Description, Magnitude      Telescopes 10-inch aperture minimum.
★★   Telescopes 6-inch to 9-inch aperture.
★★★ Binoculars (50mm+ aperture) and telescopes 3-inch to 5-inch aperture.


The night sky

Under excellent conditions over 2,000 stars can be seen with the unaided eye but only a few hundred of these are prominent enough to be useful in navigating the night sky, these are normally included in amateur sky maps and digital planetarium programs like the SkySafari, Stellarium, The Sky, Starry Night, Winstars 2 etc. Some stars will show colour that is useful in identifying them. For example, Antares, Betelgeuse and Aldebaran are orange/red where Vega, Rigel and Spica appear as blue/white.

Stars that form easily recognisable patterns have been given names and are referred to as constellations. Of these, the brightest stars act as beacons and can be used to effectively navigate the night sky during the different months of the year. To that extent stars can be particularly useful in locating other interesting objects nearby normally viewable through binoculars or larger instruments.

Planets and their satellites, comets and meteors move independent of the night sky background and at comparatively high speeds. They are therefore very difficult or impossible to reference to any star. However, planets like Jupiter, Saturn, Venus and Mars as well as the Moon are easy to spot with the unaided eye and in the case of the larger planets and especially the Moon, even medium size binoculars will reveal a limited degree of detail.

M106 spiral galaxy

M106 galaxy. Credit: NASA, ESA, the Hubble Heritage Team (STScI/AURA), and R. Gendler (for the Hubble Heritage Team). Acknowledgment: J. GaBany.

This image combines Hubble observations of Messier 106 with additional information captured by amateur astronomers Robert Gendler and Jay GaBany. Gendler combined Hubble data with his own observations to produce this stunning colour image. Messier 106 is a relatively nearby spiral galaxy, a little over 20 million light-years away.

Image credit: NASA, ESA, the Hubble Heritage Team (STScI/AURA), and R. Gendler (for the Hubble Heritage Team). Acknowledgment: J. GaBany.

Sky conditions

The prevailing sky conditions will have a significant effect on what you can see through any instrument and binoculars. As such if you live near a city the light pollution can make it difficult to locate and observe most DSOs. The Moon and a hazy sky will also have a negative effect.

For best results observe from a dark site and under clear transparent skies without the moon being present. Once your eyes have been accustomed to the dark conditions (this takes around 20-30 minutes) you should be able to enjoy the night sky at its best.

Filters

Filters will help to an extent and lager instruments will benefit more from them. Light pollution filters would help and photo-visual UHC (nebula filters) would be worth considering.

Printed aids

A huge number of printed aids exist in terms of deep sky maps and books. An excellent printed guide for people new in astronomy is The Year-Round Messier Marathon Field Guide published by Willmann Bell Inc.

In this large format hard-back book, the author, Harvard Pennington shows how to:

  • Learn 17 bright finder stars and 17 prominent finder constellations so you will know where to look for all 110 Messier objects.
  • Align a sighting device such as an 8x50 finder scope or the Telrad® so that you can point your instrument rapidly and with assurance toward all of the Messier objects.
  • Calibrate your instrument so that you know exactly how much sky you see through your finder and through the eyepiece of your instrument.
  • Find all of the Messier objects using the maps, drawings and descriptions in this book. You will know exactly where to point your instrument, and what the object should look like when you find it.

Extract from The Year-Round Messier Marathon Field Guide
published by Willmann Bell Inc.




Related topics:  night sky, deep sky object guide, March

Posted by:  Opticstar

Links
News archive
Posts
2024 (20)
October (2)
November deep sky watch
AutoStar and AudioStar explained
September (2)
October deep sky watch
Meade ACF Optical Tubes
August (2)
September deep sky watch
Meade and Coronado eyepieces
July (2)
August deep sky watch
Image projection explained
June (2)
July deep sky watch
Photography with the Meade ETX90
May (2)
June deep sky watch
Observing the Sun
April (2)
May deep sky watch
Apparent magnitude and its relevance to imaging
March (2)
April deep sky watch
Meade LX65 8" ACF review
February (2)
March deep sky watch
Imaging with a telescope
January (2)
February deep sky watch
Choosing your second telescope
2023 (24)
December (2)
January deep sky watch
Meade LX65 8" ACF SkyNews review
November (2)
December deep sky watch
Aligning your computerised Alt-Az telescope
October (2)
November deep sky watch
Planetary prime focus astrophotography
September (2)
October deep sky watch
Deep sky prime focus astrophotography
August (2)
September deep sky watch
An introduction to the Meade LX65 ACF telescopes
July (2)
August deep sky watch
Wilderness Spotting Scopes
June (2)
July deep sky watch
Visual observation through an astronomical telescope
May (2)
June deep sky watch
How to Setup & Use Your 50mm Guide Scope
April (2)
May deep sky watch
How to polar align your equatorial telescope
March (2)
April deep sky watch
Back and better than ever – Meade Deep Sky Imager (DSI) IV
February (2)
March deep sky watch
How to setup and align your Meade LX65 telescope
January (2)
February deep sky watch
AudioStar explained
2022 (24)
December (2)
January deep sky watch
What you did not know you needed - Meade LPI-G
November (2)
December deep sky watch
Meade LX65 redefines ease of use
October (2)
November deep sky watch
Imaging sensors: dust, blemishes, dead and hot pixels
September (2)
October deep sky watch
Powering your telescope
August (2)
September deep sky watch
Apparent magnitude and its relevance to imaging
July (2)
August deep sky watch
Bring wildlife up close and personal
June (2)
July deep sky watch
Imaging with a video camera
May (2)
June deep sky watch
Sensor size and field of view
April (2)
May deep sky watch
How to setup the Meade LightBridge Plus
March (2)
April deep sky watch
Image projection explained
February (2)
March deep sky watch
How to use Meade SkyCapture part 2
January (2)
February deep sky watch
How to use Meade SkyCapture part 1
2021 (16)
December (2)
January deep sky watch
Aligning your computerised Alt-Az telescope
November (2)
December deep sky watch
Meade Instruments - Tijuana factory
October (2)
November deep sky watch
Imaging with a telescope
September (2)
October deep sky watch
An introduction to the Meade LX65 ACF telescopes
August (2)
September deep sky watch
Observing the Sun
July (1)
Understanding the Coronado PST & SolarMax III solar telescopes
June (2)
Solar and night-time astronomy
Reorganisation of Meade Instruments
May (2)
Wilderness Spotting Scopes
Online shopping
February (1)
Product catalogue 2021
2020 (13)
December (1)
Visual observation through an astronomical telescope
November (1)
How to Setup & Use Your 50mm Guide Scope
October (1)
How to polar align your equatorial telescope
September (1)
Choosing your second telescope
August (1)
Exclusive Meade dealer
July (1)
Stock update
June (1)
Coronado SolarMax III 70/90 solar telescope: A primer
May (2)
Remote control for Meade telescopes
Planetary prime focus astrophotography
April (2)
Deep sky prime focus astrophotography
Choosing your first telescope
March (1)
How to setup and align your Meade LX65 telescope
January (1)
Meade’s 10-inch LX600-ACF Telescope - Sky & Telescope magazine review
2019 (9)
November (1)
Meade’s 115-millimeter ED Triplet - Sky & Telescope magazine review
September (1)
Meade LX65 8-inch ACF - BBC Sky at Night magazine review
July (2)
Back and better than ever – Meade Deep Sky Imager (DSI) IV
What you did not know you needed - Meade LPI-G
June (1)
Meade LX65 8" ACF SkyNews review
May (1)
Meade LX65 8" ACF review
April (1)
Product catalogue 2019
February (1)
Meade LX850 astro-imaging system
January (1)
Meade and Coronado eyepieces
2018 (4)
December (1)
Meade LX65 and LX85 released
September (1)
Meade LX65 redefines ease of use
June (1)
Coronado SolarMax III 90 announced
March (1)
How to setup and align your ETX Observer
2017 (10)
December (1)
New law against laser pointer use
October (1)
SolarMax III and Series 6000 APO Quad
August (1)
Coronado SolarMax II
July (1)
Meade LPI-G camera review
June (1)
Coronado Personal Solar Telescope (PST)
May (2)
Meade ETX90 Observer review
Meade ETX Observer review
February (1)
Meade telescope offers at AstroFest 2017
January (2)
Meade at the European AstroFest 2017
Meade LX850 advert in print
2016 (25)
December (2)
Meade ETX90 Observer review
Choosing a small computerised telescope
November (1)
Photography with the Meade ETX90
October (4)
Meade LX90 advert in print
Meade ETX90 Observer review
The International Astronomy Show 2016
Meade STELLA Wi-Fi adapter
September (4)
Meade's successful Photokina 2016
Meade at Photokina 2016
Meade LX600 StarLock
Wilderness spotting scope review
August (2)
ETX Observer advert in print
LightBridge Mini review
July (2)
All-new Meade ETX Observer
North West Astronomy Festival 2016
June (8)
Meade LightBridge Mini 130 review
Meade at NEAF 2016
Tim Peake returns to Earth
Tring Astronomy Centre
AutoStar and AudioStar explained
Legislation to combat light pollution
Promotion extended through summer
Coronado advert in print
May (2)
European Extremely Large Telescope
Meade UK news