How can you see Jupiter using a telescope?

In many ways Jupiter was referred to as King of Planets as its biggest planet. Jupiter is 11 times larger than Earth. Essentially, you can put all seven more planets within Jupiter with enough room available. Jupiters are incredibly large!

It’s easy to view even on tiny telescopes. Let’s talk observing Jupiter with telescopic equipment. What you observe may help us to see what you are looking at. In addition, we are discussing tools for stargazing that help enhance our observation experiences.

How can you see Jupiter using a telescope?

This will help to find Jupiter using an optical microscope in the sky. If you have 6 inch or smaller telescopes then read this article on the best method on Jupiter. Jupiter is huge. This is the largest solar system by some margins, and you should be able to see it with most telescopes less than $1000.

Jupiter is about twice as big as Mars, Saturn Uranus, Venus, and Saturn combined. Tell me the size of the moon? Our earth’s size is 1300 times bigger! Is Jupiter really the most successful planet in physics? (I’m not sure).

Observing the dazzling Jupiter through telescopes can sometimes transform a curious astronomer into an experienced amateur. It’s a pretty amazing view from the telescope that allows one to see a planet in real-time.

Why isn’t Jupiter always visible in the night sky?

The planets’orbits of the Sun have corresponding orbit periods. Earths orbits last for 1 year. Jupiter orbiting the planet takes 10.88 days. The planets are in an elliptic orbit and thus have no perfect circle.

And because the Earth circles the Sun faster, its distance to the Sun changes continuously. We’re about 400m away from each other. In most instances, our distance is 600 billion. This will happen at a point where the Earth is facing the other side of the Sun.

There will also be a good and bad time for Jupiter. And sometimes it becomes impossible to observe Jupiter.

How many moons does Jupiter have 2019 tally?

Jupiter is a lunar planet of around 79. Among the others 53 have been named. These four biggest (Ganymede, Io, Callista and Europe) have been discovered as early as 1610 from Galilei. This was the most recent observation of orbiting objects apart from Earth and Mars.

The four Galilean Moons on Jupiter are among the biggest objects on Earth and Ganymede outsized Mercury. You may also see the Moon Jupiter using telescope options available to home users.

A suitable name is given to the Galilean lunar spheres in Jupiter from the figure which Jupiter and Zeus “talk to”.

A Quick-Start Guide to Observing Jupiter

If you’re aware of Jupiter and have some experience in this area simply point the telescope at him. Put this in a finding scope is easy enough.

Use a small-sized, high-frequency eyepiece to locate the object. This is simply an extremely small bright spot. It is possible then to increase magnification with shorter eyeglasses. Even at higher magnifications the image looks quite tiny.

Look for the Moon, which is like four stars, a little closer than that on Jupiter’s Equatorial plane. Jupiter also has two dark bands, a cloudband that runs parallel with the Equator.

How do we find Jupiter?

Simple search on the Internet will show when Jupiter appears in night skies on the planet. Or you could use a planetarrium such as Stellar to display sky movements as they pass through space. This photograph represents Stellarium’s Screenshot.

The photo shown faces north from a 45 degree north-west position. The arc of the red lines is called the ecliptic. This imaginary line runs from east-west where the Sun, Moon and the planet are seen to travel.

To find this ecliptic you can follow the Sun’s path between sunrise and sunset.

Colored filters

Often you might see Jupiter without filtering. Use of a colored filter that attaches to the eyepiece may however bring up details that are difficult to spot. Filter may not work on telescopes with apertures under 100 mm so try it.

Color filters are often identified by Wratten numbering methods. Wratten can be used to create photographs. Light yellows — #8 and #12 may be used to boost certain functions of cloud bands of Jupiter. Reds will have orange features highlighted.

Deep yellow #15 sometimes brings out Festoons in clouds. It is sometimes known as Jupiter Filters #80.

Cloud Bands

It has previously been noted in Jupiter’s view that he reaches a high cloud. Jupiter’s cloud is usually formed in bands which can be seen by telescopes though they are barely ever visible. Even at 60X with 70mm telescope the two main cloudbands can be seen in darker shades on the right.

Depending on your telescope’s aperture and atmospheric conditions it is possible to magnify the Jupiter to show shading in the polar regions. Apply greater magnification so that you will see broader bands or even swirls in a particular band.

Jupiter’s Moons

Let us look at Jupiter using binoculars. It is possible to see Jupiter’s bright moons with just modest 7x 35 binoculars. It is called Galilean moon as it was seen first in 1600. Using binoculars or low-power eyepieces the planets will have similar shapes.

Moon orbit is pretty rapid. They therefore have positions that are different each day. Sometimes you will only see 1-2 nights because the other planets are near Jupiter. It’s possible for a combination to be intriguing. The moon Io has four names.

The Great Red Spot

In the past thousand years, the Great Red Spot had been the cause of this massive storm. This storm has a greater diameter than the Earth and travels across Jupiter’s face.

Jupiter rotates once each hour so you’ll be able to see these great red spots move at any hour during the observing period. You can also find programs that predict the time of the Great Red Spot if you searched on the net.

Jupiter Simulator also shows the date of its visibility via the mobile phone app.


Despite its immense size and the size in comparison to the other worlds, Jupiter’s orbits remain relatively far away from us. You see something 200 miles away. The bigger the aperture of a telescope the higher the light that can be captured.

In many cases an 80mm telescope can be restricted to 120mm. A 200mm telescope could apply more than 250 X and provide additional details.

When is the best time to observe Jupiter in a telescope?

Jupiter can generally be seen at night before sunrise on January 1. Over the next few days the solar system will gradually show itself in nighttime skies. From 11pm on Earth, you could see Jupiter using a telescope.

The best time to observe Jupiter from your telescope is when its orbit is in opposition to the Earth. This means the planet and the moon are temporarily aligned in the same direction.

When it does occur the Earth will be located directly between Jupiter and the sun giving amateur astronomers a good viewing position.

Best time to see Jupiter

The most beautiful sight of Jupiter can only be seen when Jupiter opposes. It basically reflects the alignment of Jupiter Earth and the Sun. All of these happen about three times a month. The closer your distance is, the better you can see Jupiter as it is closer or aligned to Earth and not elsewhere on the Earth.

In this article, Jupiter’s next opposition is expected to begin in September 2021, July 15 2020 and August 28 2021. On July 14, 2020 it will shine at magnitude 2.8 with a length of 476.2 arcseconds in the sky.

Christmas star

Jupiter synchronizing itself with Saturn in the night sky is unusual. You can observe it on December 21 2020. Check this conjunction below West at dusk. The Christmas Star is widely known and very unusual when viewing Jupiter and Saturn from Earth, an experience never seen before in centuries.

You can see Jupiter with Saturn. Jupiter is the brightest of both, Saturn is tilted along with the sun. With proper magnification you can easily view Jupiters biggest moons.

Three targets when observing Jupiter with a small telescope

How can you see Jupiter? Is this really the best thing for me? First you can look at a large Jupiter Moon known by its nickname Galilean moon. These can easily be seen in a smaller scope.

Second, look at the planets and attempt to identify all major zones and bands that exist on that planet. The most obvious bands can be seen with smaller scopes, but dark skies and big objective lenses show more detail and thin bands. Ultimately the most difficult challenge is finding a great red spot.