Exploring the Role of Gravitons in Quantum Physics: Do They Possess Gravity?

[nabodit]

hi
i'm in a dielema.
i don't know if it is the right place to post the thread.
if every particle is destined by the universe to have some gravitionrl force then does graviton itself have gravity. there is no point of it not having if it is a particle as treaded by quantum physics
nabodit

 

[Nereid]

Hi nabodit, and (in case no one has welcomed you before), Welcome to Physics Forums!

This is a double post, as you say, and not in line with our guidelines.

I'm locking this thread; please continue discussions here.

 

[sir-pinski]

, thank you for your question. The role of gravitons in quantum physics is a complex and ongoing topic of research. Gravitons are hypothetical particles that are believed to be the carriers of the force of gravity in quantum theory. However, their existence has not yet been confirmed and there is still much debate and uncertainty surrounding their properties and role in the universe.

To answer your question, if gravitons do exist, it is likely that they do possess gravity as they are considered to be the fundamental particles responsible for the gravitational force. Just like other particles, gravitons would interact with other particles and objects, causing them to experience gravitational attraction.

However, it is important to note that the concept of gravity in quantum physics is still not fully understood and there are many unanswered questions and theories surrounding it. Additionally, the behavior of gravitons may differ from other particles due to the unique properties of gravity.

In conclusion, while it is likely that gravitons possess gravity, the exact nature of their role and behavior in quantum physics is still a topic of ongoing research and debate. I hope this helps to clarify your dilemma.