Comment on Higgs Field
Kalcifer@sh.itjust.works 3 months ago
As far as my current understanding goes, the majority of mass derives from the binding energy between particles, and only a small amount is due to the higgs interaction.
Comment on Higgs Field
Kalcifer@sh.itjust.works 3 months ago
As far as my current understanding goes, the majority of mass derives from the binding energy between particles, and only a small amount is due to the higgs interaction.
LodeMike@lemmy.today 3 months ago
Weight not mass
Kalcifer@sh.itjust.works 3 months ago
I was assuming that the image was confusing the term “weight” with “mass” (as both are equal on earth — give or take the variance in Earth’s gravitational field)). If weight was intended to be a separate term, then it’s just incorrect. Weight is the term given to the force that objects in a gravitational field impart on others when they are not accelerating (I mean not accelerating to mean the object is still with reference to the surface of the Earth) [1.1]. In SI, weight is measured in Newton’s [1.2] and mass is measured in kilograms [2].
References
1. “Weight”. Wikipedia. Accessed: 2024-08-13T03:05Z. en.wikipedia.org/wiki/Weight 1. > the weight of an object, is the force acting on the object due to acceleration of gravity. 2. > The unit of measurement for weight is that of force, which in the International System of Units (SI) is the newton. 2. “Mass”. Wikipedia. Accessed: 2024-08-13T03:08Z. en.wikipedia.org/wiki/Mass > The SI base unit of mass is the kilogram
LodeMike@lemmy.today 3 months ago
I don’t actually know what the higgs field is. I assumed it was gravity.
Kalcifer@sh.itjust.works 3 months ago
These terms get a little convoluted for me as my knowledge of them is far from well established. I don’t really want to get into what the actual “Higgs field” is, but, for the sake of the meme, the following excerpt from Wikipedia should suffice: