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HD 25295
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Star HD 25295

Yellow star HD 25295 is located 205 light years away from the Sun. It is a single star of spectral class G5, that has 90 % of solar mass. There is at least one exoplanet in this system.
Sun distance
205 light years
galaxy map

HD 25295

Yellow star
Spectral class: G5

Location +

Ascension iconRight ascension: 4h 2m 24.079s
Declination iconDeclination: 31° 19' 47.311'' (northern hemisphere)
Parallax iconParallax: 15.921
Distance iconSun distance: 204.858 ly | 62.8 pc
Star position
The position of a star tells us where it appears in the sky, similar to how we use coordinates like latitude and longitude on Earth. In astronomy, the three main coordinates are right ascension, declination and distance. .. icon More about Star position in StellarGuide

Basic characteristic

icon weight
Mass: 90 % M Sun
| 943 M Jupiter
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Star mass
Mass of the star HD 25295 is 0.90 solar masses.

The mass of a star is the total amount of matter it contains. It is one of the most important properties of a star, as it determines almost everything about how the star lives, changes, and dies. In astronomy, star mass is usually measured in solar masses (M☉) — where 1 solar mass is equal to the mass of our Sun... icon More about Star mass in StellarGuide
radius icon
Size: 108 % R Sun
| 10.7 R Jupiter
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Star size
Radius of the star HD 25295 is 1.08 solar radii.

The size of a star refers to its radius — the distance from its center to its surface. Star size is usually measured in solar radii (R☉), where 1 solar radius equals approximately 696,000 kilometers. Depending on their type and life stage, stars can be much smaller or larger than the Sun... icon More about Star size in StellarGuide
temperature icon
Temperature: 5966 K | 1.03 T Sun
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Star temperature
Surface temperature of HD 25295 is 5966 K, which is 103 % of the temperature on the surface of the Sun.

The temperature of a star refers to the temperature at its surface, also called the photosphere. It is measured in kelvins (K), the standard unit for temperature in astronomy. A star’s temperature tells us a lot about its physical properties and where it stands in its evolutionary stage... icon More about Star temperature in StellarGuide
time icon
Age: 3.2 billions years | 0.7 Sun
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Star age
Star HD 25295 is 3.2 billion years old, which is about 0.7 of the Sun's age.

The age of a star tells us how long it has been shining since it formed. Knowing a star’s age helps astronomers understand its life stage, how it has changed over time, and what will happen to it in the future... icon More about Star age in StellarGuide
luminosity icon
Luminosity: 1.3 L Sun
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Star luminosity
Luminosity is the total amount of energy a star gives off every second. Think of it as the star’s true brightness — not just how bright it looks from Earth. This is important because some stars may appear dim simply because they are far away, not because they’re actually faint... icon More about Star luminosity in StellarGuide

Photometry

Magnitude iconApparent magnitude (V): 8.4
Magnitude iconAbsolute magnitude (V): 4.4
Absolute stellar magnitude in different parts of the electromagnetic spectrum from infrared (K band) to ultraviolet (U band).
5
10
15
20
25
30
35
K
2.1
H
1.6
J
1.2
Grp
0.8
I
0.8
G
0.6
V
0.5
Gbp
0.5
B
0.4
U
0.3
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HD 25295 system structure

 HD 25295
HD 25295 b 0.05 AU 5.5 M 2.5 R 4 days

More about HD 25295

Star HD 25295 is is approximately 8 % bigger than the Sun and temperature on its surface is around 5966 K (5693 °C), which is about 103 % of Sun's temperature.
       HD 25295 can be found in northern celestial hemisphere, you cannot see it with naked eye, but you can observe this star with basic telescope. The star is easily observable from Northern America, Europe and Asia.
Other designations of this star
TOI 4602, TIC 467651916, HIP 18841, HD 25295, TYC 2357-595-1, 2MASS J04022420 3119501, Gaia 169256041140206848, Gaia DR3 169256041140206848
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External sources
icon study
icon study

Scientific study,
gaia icon
Gaia database (Gaia DR3 169256041140206848)
Archive from the Gaia mission

news icon
News from this star system

HD 25295 b confirmed as a hot sub-Neptune and prime target for future atmospheric studies
Image: HD 25295 b confirmed as a hot sub-Neptune and prime target for future atmospheric studies
TOI-4602 b is confirmed as a hot sub-Neptune orbiting a bright, quiet star. Its size and mass make it a prime target for JWST and Ariel to study how small planets lose their atmospheres....
14.4.2026
Read article >

Frequently Asked Questions stardetail

How far is the HD 25295 system from the Sun?

The HD 25295 system is 205 light years or 62.8 parsecs from the Sun.

What galaxy is the HD 25295 star in?

The HD 25295 is in the Milky Way galaxy just like the Sun.

How many stars are in the HD 25295 system?

The HD 25295 is a single star, there are no other known stars in the system.

What type of star is the HD 25295?

The star HD 25295 is a Yellow star star.

What temperature is star HD 25295?

The star HD 25295 has an effective temperature of 5966 K. Find out more about the temperature of stars in Stellar guide
Class of stars Yellow star
Sun-like stars belong mainly to spectral type G and are commonly called yellow dwarfs. They have surface temperatures of roughly 5,300–6,000 K (about 5,000–5,700 °C), giving them a slightly yellow-white appearance. With masses typically between about 0.8 and 1.1 times that of the Sun, they sit between hotter, more massive white stars and cooler orange and red stars on the main sequence. The Sun itself is a standard G2V star and serves as the benchmark for understanding the structure and behavior of this stellar class.

These stars generate energy by fusing hydrogen into helium in their cores through the proton–proton chain. Their total lifetimes on the main sequence are around 10 billion years, during which their brightness slowly increases. After exhausting hydrogen in their cores, Sun-like stars expand into red giants, shed their outer layers to form planetary nebulae, and eventually leave behind dense white dwarfs. Many known exoplanet systems orbit Sun-like stars, making them key targets in the search for potentially habitable worlds.
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