![Solar energy is produced at the center of the star, in its core, where the temperature reaches 15,000,000 ̊C and where hydrogen is converted into helium by means of nuclear fusion Stock Solar energy is produced at the center of the star, in its core, where the temperature reaches 15,000,000 ̊C and where hydrogen is converted into helium by means of nuclear fusion Stock](https://c8.alamy.com/comp/K22B94/solar-energy-is-produced-at-the-center-of-the-star-in-its-core-where-K22B94.jpg)
Solar energy is produced at the center of the star, in its core, where the temperature reaches 15,000,000 ̊C and where hydrogen is converted into helium by means of nuclear fusion Stock
![Nuclear fusion of hydrogen into helium powers stars, but fusion requires a lot of energy. Where does this energy come from? | Astronomy.com Nuclear fusion of hydrogen into helium powers stars, but fusion requires a lot of energy. Where does this energy come from? | Astronomy.com](https://www.astronomy.com/wp-content/uploads/sites/2/2021/09/NASASunimage.jpg)
Nuclear fusion of hydrogen into helium powers stars, but fusion requires a lot of energy. Where does this energy come from? | Astronomy.com
![Astro Bob: All about fusion — how the sun keeps the lights on - Duluth News Tribune | News, weather, and sports from Duluth, Minnesota Astro Bob: All about fusion — how the sun keeps the lights on - Duluth News Tribune | News, weather, and sports from Duluth, Minnesota](https://cdn.forumcomm.com/dims4/default/a3683af/2147483647/strip/true/crop/870x727+0+0/resize/840x702!/quality/90/?url=https%3A%2F%2Fforum-communications-production-web.s3.us-west-2.amazonaws.com%2Fbrightspot%2F4d%2Faf%2F315a50614080b444e50008a62c35%2Ffusion-diagram-mine-final-v2.jpg)