With an 80mm telescope, it is possible to see a variety of objects in the night sky, including galaxies, clusters, nebulae, and planets. You could see galaxies such as the Andromeda Galaxy, which is the closest major galaxy to our own Milky Way.
Clusters can also be seen with an 80mm telescope, such as the Pleiades, a cluster of seven stars in the constellation Taurus. You will also be able to observe globular clusters, which are densely packed sphere-shaped collections of stars.
Nebulae can be seen with an 80mm scope, such as the Lagoon Nebula and the Trifid Nebula. It is even possible to observe planets such as Jupiter and Saturn, as well as their moons and rings, in good detail.
Is a short or long telescope better?
The answer to whether a short or long telescope is better depends on what you plan to use the telescope for and your budget. Generally speaking, a longer telescope such as a > 10″ reflector will have a higher light-gathering capacity than a shorter one, giving sharper and clearer images of distant objects.
Longer telescopes tend to be more expensive, however, and require a sturdy mount to reduce vibrations, something that is often difficult to find for short telescopes such as refractors.
If the goal of your telescope is to observe large, or faint, deep-sky objects such as galaxies, a long telescope will be necessary to see any detail. If, on the other hand, you’re interested in studying brighter and nearer celestial bodies, such as the Moon, planets, and other Solar System objects, a shorter telescope (e. g.
6″ or 8″) will often work just as well but for a lower cost.
In other words, a short or long telescope is better depending on what you plan to use it for and the budget you have. A long telescope is usually recommended for those who want to observe distant objects, while a shorter telescope is a good option for those interested in studying celestial bodies within the Solar System.
Does Orion make good telescopes?
Yes, Orion makes great telescopes for a variety of users, from amateur astronomers to experienced professionals. Orion telescopes are well known for their quality optical components and robust construction.
They feature high-quality mirrors and lenses, advanced engineering and ergonomics, and intuitive controls. Moreover, Orion offers a range of telescope models and sizes, ensuring that you can find one to meet your individual viewing needs.
Finally, Orion telescopes are competitively priced, making them an excellent value-for-money option.
Is Orion Telescopes still in business?
Yes, Orion Telescopes is still in business. They have been a leading provider of telescopes and binoculars for amateur astronomers since 1975. Their products are also popular for bird watching, scenery viewing, and a variety of other applications.
They have a wide variety of telescope types and models to choose from, as well as a large selection of accessories for telescopes, eyepieces, mounts, and other astronomy equipment. They offer products from some of the most respected brands in the field, such as Celestron, Meade, Sky-Watcher, and Explore Scientific.
In addition to their product lines, Orion Telescopes also offers services such as repair and maintenance, as well as a variety of educational resources and articles for beginner astronomers. Their commitment to customer service is second to none, ensuring customers always get the best service possible.
Which telescope is for viewing planets?
The best telescope to view planets with is called a refractor telescope. This type of telescope uses a combination of lenses or lenses and mirrors to capture light from distant objects such as planets and stars.
Refractor telescopes come in a wide range of sizes and are the preferred choice when it comes to observing planets from Earth.
Small refractor telescopes are great for starters who are just getting into astronomy. These telescopes are portable and easy to use, and can offer a great view of the moon and planets right away. With a small refractor, you can expect to see details such as the planet’s surface, polar caps, or other features.
For more experienced astronomers, there are high-end refractor telescopes that offer superior image quality. The larger the aperture of a refractor, the more light it can gather and the higher the resolution of the image.
With a large enough aperture, you can see features on Jupiter and Saturn, and even Mars can sometimes be seen.
When choosing a telescope to observe the planets, the aperture and quality of the optics are the two most important factors to consider. Using a higher quality and larger aperture telescope will enable you to observe more distant and faint galaxies, nebulae, and star clusters in addition to the planets.
Are Orion telescopes Made in USA?
No, Orion Telescopes & Binoculars is a company located in California in the United States, but their telescopes are not manufactured in the U. S. Instead, the majority of Orion Telescopes & Binoculars products are designed by their engineers in California and then manufactured oversees in Taiwan, China and Japan.
All of their telescopes and accessories are made to meet Orion’s stringent quality control standards and carry an unconditional lifetime warranty against defects in materials or workmanship. Additionally, all Orion products undergo rigorous testing before they are shipped from overseas factories to the U. S.
facilities.
Did Meade go out of business?
No, Meade Instruments has not gone out of business. They are a leading manufacturer of telescopes and other optical instruments that have been in business for over 65 years. They are well known for producing high-quality optical products for professional and amateur astronomers.
In addition to telescopes, they also produce binoculars, microscopes, spotting scopes, digital imaging equipment and other accessories. Their products are available in many locations, including their website and through retail outlets around the world.
Meade Instruments continues to be a leading innovator in the optics field.
Who makes Celestron telescopes?
Celestron is an American company based in Torrance, California. They specialize in the design, manufacture, and distribution of high-quality telescopes and telescope accessories. Founded in 1960 by Tom Johnson, Celestron has been on the cutting edge of amateur astronomy equipment and is one of the leading manufacturers of telescopes and telescope accessories today.
They are particularly well known for their computerized GoTo Telescopes, which allow users to easily find and track celestial objects with a push of a button. Celestron has been designated the official telescope of National Astronomy Day, which is held the first Saturday in May each year.
Their products are used by astronomers and space enthusiasts from around the world, and they are a hallmark of quality in the telescope industry.
Where is the James Webb telescope?
The James Webb Space Telescope is currently being built at the NASA Goddard Space Flight Center in Greenbelt, Maryland. After construction is completed, NASA’s Goddard Space Flight Center, in collaboration with the European Space Agency (ESA) and the Canadian Space Agency (CSA), will launch the telescope aboard an Ariane 5 rocket from French Guiana Space Center in Kourou, French Guiana into an orbit nearly 1.
5 million kilometers from Earth.
The James Webb Telescope will be the most powerful space-based telescope ever created. It is designed to study every phase of cosmic history, from the Big Bang to the formation of solar systems capable of supporting life on planets like Earth, and will give us the ability to hunt for the fingerprints of life on other planets around distant stars.
It will also be able to detect light from the first stars and galaxies that formed in the early universe.
The James Webb Space telescope is expected to launch in 2021. Once it reaches its destination, it will unfold itself and prepare to start its groundbreaking astronomical research.
Does length of telescope matter?
Yes, the length of a telescope can have an impact on its performance and the level of detail you can observe. The length of a telescope is often measured as an aperture, which dictates the range of light wavelengths that can be focused.
Larger apertures, or longer telescopes, allow for more light to be captured from distant objects, meaning we can see far away objects more clearly and in more detail. A longer telescope also allows for a wider field of view, meaning more objects in the night sky can be seen at once.
In general, the larger the telescope, the better the image will be. However, larger telescopes often come with a higher cost so it’s important to weigh the cost-benefit when selecting a telescope.
What size of the telescope is to use?
The size of the telescope to use depends on the type of astronomy you are interested in. For example, if you are doing wide-field astrophotography of major constellations, you need a telescope with a large aperture such as 8” or larger to capture plenty of light.
If, however, you plan to observe small, faint objects such as planetary nebulae, you would need a telescope with a larger aperture of 10” or larger to gather enough light from the distant objects. If you plan to photograph the planets and the Moon, a medium aperture telescope such as a 4-6 inch refractor or 6-8 inch reflector is the ideal size.
For any telescope of this range, you should install a coma corrector or field flattener to minimize aberrations. If you are after high power planetary viewing and imaging, a telescope with an aperture of 8-14 inch achromatic, or 12-18 inch apochromatic refractors, is ideal.
Finally, if you plan to photograph deep-sky objects such as galaxies, you’ll need a large aperture such as a 16”-32” telescope.
Why are some telescopes short?
Some telescopes are short due to their design. This can be because they use a smaller aperture size and therefore require less distance between the eyepiece and the focal plane of the telescope. Short telescopes can be more portable and easier to set up for beginner astronomers.
For example, a tabletop telescope, also known as a Dobsonian telescope, is often a shorter and more affordable option for hobbyists. Short telescopes are also typically less expensive than larger and more powerful models because they don’t require many of the same components and features to operate.
Additionally, since they don’t need to be positioned as far away from the observer, they are able to capture more detail than a longer telescope. This makes them an excellent tool for observational astronomy.
What type of telescope is better reflector or refractor?
The answer to this question depends largely on the purpose for which you are using the telescope. If you are using it for viewing distant objects in the sky, then reflector telescopes tend to be the better option.
This is because reflector telescopes have longer focal lengths than refractor telescopes and typically have a wider field of view, making it easier to view objects at a greater distance. They also generally have larger apertures, allowing more light to enter the telescope and providing brighter, sharper images.
Additionally, reflector telescopes have less chromatic aberration than refractor telescopes, produce sharper images, and are generally easier to maintain.
On the other hand, refractor telescopes tend to be a better choice if you plan to observe the Moon and planets up close. Refractor telescopes tend to have shorter focal lengths, so they can produce a bigger image in a shorter scope.
Furthermore, they are usually more compact, light weight, and better suited for astronomical photography.
Ultimately, it is up to you to decide which type of telescope is better, based on the type of observations you plan to make. Both types of telescopes can provide amazing views of the night sky, but it’s important to select the telescope that best suits the type of observing you plan to do.
What are some things to consider when buying a telescope?
When it comes to buying a telescope, there are quite a few factors to take into consideration. First, think about the type of telescope you want – refractor, Dobsonian, Schmidt-Cassegrain, etc. Do some research to decide which type best fits your needs and budget.
Next, consider the size of the telescope. Larger telescopes generally show more detail when aimed at the sky, but it’s a good idea to start with something small and easy to use to get your feet wet. Then, take a look at the optics of the telescope.
Make sure that it uses quality lenses and mirrors since this will affect the quality of your view. Also, if you plan on taking pictures with the telescope, you will need one with a tracking motor. Lastly, think about where you plan to use the telescope.
If you live in a city, a dobsonian or refractor is probably the best option since these are designed for nighttime use. On the other hand, if you live in a rural area, a Schmidt-Cassegrain or an SCT telescope could work well for both day and night.
Keep all these factors in mind when buying a telescope so that you can get the best out of your viewing experience.
Is the field of view greater with a shorter or longer focal length eyepiece Why?
The field of view is generally greater with a shorter focal length eyepiece than a longer focal length eyepiece. This is because a shorter focal length eyepiece will obviously let in more light and allow a wide view of the sky than a longer focal length eyepiece.
Shorter focal length eyepieces typically have larger eyepieces which let in more light and give a wider field of view than a longer focal length eyepiece. In addition, they also have a wider apparent field of view, which allows more of the night sky to be seen.
To put it simply, you can see more with a shorter focal length eyepiece than a longer focal length eyepiece, as the shorter eyepiece has a larger amount of light entering the telescope and producing a wider field of view.
Why do we need an extremely large telescope like the Giant Magellan telescope?
The Giant Magellan Telescope (GMT) is an extremely large telescope that is being constructed to answer questions that can’t be answered with current telescopes. The GMT is currently being built atop the Las Campanas Observatory in the Chilean Andes.
The telescope was specifically designed to be extremely large so that it can collect more light than any other telescope before it. A telescope’s ability to detect and observe objects in space is directly correlated to the amount of light it can collect.
By collecting more light, the GMT is able to study astronomical objects more closely than ever before. This will enable astronomers to study a range of astronomical phenomena that had previously only been theorized.
The GMT will also be able to generate images and spectra of incredible resolution and detail compared to any other instrument currently in existence. With its immense size, it will be able to discover even the smallest and most distant objects, making discoveries that were previously impossible.
This will allow astronomers to, for example, study early galaxies, search for exoplanets, and study stars, black holes, and other cosmic phenomena.
The GMT also features adaptive optics, which correct for atmospheric turbulence. This means that the telescope can achieve the highest resolution images. With adaptive optics, the GMT can observe a resolution that is unprecedented in ground-based telescopes.
In short, the size of the Giant Magellan Telescope is integral to its success. It is the largest telescope ever built, allowing it to access more light, achieve higher resolution images, and make incredible discoveries by seeing distant, small objects that have previously been hidden from astronomers.
What is a good size for a telescope?
The size of the telescope you should buy will depend on how advanced your needs and budget are. If you’re just starting out and need something simple, then a compact refractor telescope might be best for you.
These telescopes are generally 4-6 inches, and feature a body that is typically composed of metal or plastic. The optics will usually consist of a glass-coated objective lens and an eyepiece.
For those who are looking for something a bit more powerful and advanced, then a traditional reflecting or Schmidt-Cassegrain telescope might be the way forward. These telescopes feature an 8-10 inch telescope body, and feature a primary mirror and a secondary mirror that can give observers a more powerful view of the night sky.
For those with an even more serious and dedicated interest in astronomy, then even larger telescopes can be considered. Telescopes of 12 inches and up will provide even more power and a better view of the night sky, and come with many of the same features found on smaller models.
In addition, they are more expensive and require more effort to set up, but can yield very impressive results.
Finally, if you’re a serious astronomer and/or have the budget for it, then larger telescopes in the range of 16-18 inches can be a great choice. Of course, these are very expensive and require a lot of maintenance, but can provide some of the best astronomical views available.
Ultimately, the size of the telescope you purchase will depend on how advanced you need it to be and how big of a commitment you are willing to make. Consider the features you need and how serious your interest in astronomy is when making your decision.
How many mm should a telescope be to see planets?
The amount of mm needed for a telescope to be able to see planets will depend on a few factors, including the size and power of the telescope and the brightness of the planets. A telescope with a small aperture, such as 76mm, may be able to see some brighter planets, such as Jupiter and Saturn, but it may not be able to distinguish their features or pick up the fainter planets.
To see all the planets, you would need a telescope with a larger aperture. A telescope with an aperture of 200mm would provide a good amount of magnification and could be used to observe the features of Jupiter, the rings around Saturn, and even the more faint, distant planets such as Neptune and Uranus.
However, if you want to be able to view the more intricate features on those planets, a much larger aperture would be needed. Telescopes with an aperture of 400mm or even 700mm can be used to get very high levels of magnification and can be used to observe the much smaller details on planets.
Ultimately, it is up to the individual’s preferences and budget, as telescopes with larger apertures can be more expensive.
How big of a telescope do I need to see Saturn?
The size of telescope you need to see Saturn depends on several factors, including the size of the telescope itself, the quality of the optics, the magnification and aperture of the telescope, and atmospheric conditions.
Generally, a telescope with a minimum aperture size of 6″ and a magnification up to 200x is more than enough to see Saturn’s rings, its largest moon Titan, and possibly some other of its moons. To see more details and to make out surface features on Saturn, a larger telescope with an aperture of 8″ to 12″ and a magnification of up to 400x is recommended.
It is also important to note that even with the right telescope and optimal viewing conditions, Saturn may still appear as a dim and small point of light, so patience and time are also needed when trying to observe Saturn.
What magnification do you need to see Saturn’s rings?
The exact amount of magnification needed to see Saturn’s rings depends on the size of your telescope and the atmospheric conditions. Most backyard telescopes are able to see Saturn’s rings when they are magnified to 200x or more.
However, a much stronger telescope with high magnification could be necessary in order to see the finer details of the rings on a good night with steady skies. The Hubble Space Telescope has the capability to take detailed images of Saturn’s rings when it is magnified up to 800x.
It is important to remember that the stronger the magnification, the more the atmospheric conditions affect the view. Therefore, when choosing the magnification necessary to see Saturn’s rings, be sure to factor in the viewing conditions being used.