The Kepler spacecraft launched in 2009 and spent more than 150,000 stars in the Cygnus-Lyra region ,The primary science objective of the Kepler mission was detecting of exoplanets unfortunately, the loss of a second of the four reaction wheels on board the Kepler spacecraft 2013 ,to end the mission that continued for four years ,That is why K 2 became fully operational in 2014 The K 2 mission entails a series of sequential observing Campaigns, Each campaign is therefore limited by Sun angle constraints to a duration of approximately 80 days. we uploaded NASA data of K 2 mission (campaign 3),A star EPIC 26103150,we notice that there is two depth that repeat every period of time in the light curve of this star in this graph ,according to transit method for detecting exoplanets, the reason of the depth is because an planet passes on the star that locked it's brightness, one planet is hot Jupiter and the other planet is mini Neptune this star has the same radius of the sun(695,510 km)

Resources:

https://www.cfa.harvard.edu/~avanderb/k2c3/ep206103150.html

https://www.cfa.harvard.edu/~avanderb/tutorial/tutorial3.html

https://www.cfa.harvard.edu/~avanderb/allk2c3obs.html

https://keplerscience.arc.nasa.gov/campaign-3-data-processing-complete.html

https://exoplanetarchive.ipac.caltech.edu/docs/K2Mission.html

our idea will allow players to learn, explore and enjoy searching for exoplanet :

The player's position will be in K 2 and the game will provide him with all the stars observed during the campaign. 3 Once he clicks on each star, it shows him the light curve that can determine from it (radius, moons, whether the planet is fit for life or not, orbit) where the player will take EPIC 26103150 as an example , in addition to basic information such as mass and temperature all this will help in determining the chemical properties of the planets and we will leave the player the opportunity to innovate and innovate in the design of the planets