Jupiter mass

A planet with a Jupiter mass might not have the same dimensions.

Several of the objects were no bigger than 15 Jupiter masses.

Observation has ruled out any planet over 0.7 Jupiter mass within a year period.

This produces a selection effect for planets of Jupiter mass.

The planet is brighter than expected for an object of three Jupiter masses.

Using evolutionary models, its mass was estimated as from 13 to 14 Jupiter masses.

Also, observation has ruled out planets heavier than 0.7 Jupiter mass with a period of one year or less.

It is thought that objects smaller than 20 Jupiter masses would have evaporated.

Based on the orbital dynamics, the total mass of the system is estimated to be 184 Jupiter masses.

Infrared observation has shown there are no bodies of three or more Jupiter masses in this system.

Sub-brown dwarfs have a mass of less than about 13 Jupiter masses.

Such sensitivity can detect planets of several Jupiter masses.

Its estimated mass is around 25 Jupiter masses.

Objects orbiting a star are often called a planet below 13 Jupiter masses and brown dwarf above that.

Nevertheless, objects as small as 8 Jupiter masses have been called a brown dwarf.

Discovered through radial velocity measurements, it has a mass of 5.95 Jupiter masses.

"The exotic matter needed to build a traversable wormhole of that size is pretty big, about a Jupiter mass."

The planet has minimum mass 3.22 Jupiter masses.

A larger object of 2-3 Jupiter masses would be visible at a distance of up to seven to ten light years.

It has minimum mass seven Jupiter masses and orbits at a distance of 2.86 astronomical units.

One Jupiter mass can be converted to related units:

A mathematical study in 2012 showed that a mass of about 2.4 Jupiter masses would be most stable in this system.

It is estimated to have a mass of approximately 17 Jupiter masses and is probably a brown dwarf.

One of the planetary candidates has a mass below the detection limit of 3.8 Jupiter masses.

If the protostar is sufficiently massive (above 80 Jupiter masses), hydrogen fusion follows.