That would be hard to predict because the universe has four forces: gravity, strong force, weak force, and the electromagnetic force. If any of those are missing then there would most likely be nothing that we could recognize as our universe.
Electromagnetism is indeed a fundamental force in the universe, responsible for interactions between charged particles. It encompasses both electric and magnetic forces, governing everything from the behavior of atoms to electromagnetic waves like light.
Photons are particles of light that are created when an atom releases energy. They play a crucial role in the universe by carrying electromagnetic force, allowing for the transmission of light and energy, and enabling processes like photosynthesis and vision.
electromagnetic energy
The answer is gas.
The force of gravity acts as a balancing force in the universe, preventing all bodies from collapsing into one single mass. The expansion of the universe, along with the motion and velocity of objects, also contribute to preventing bodies from being drawn together into a single mass. Additionally, the electromagnetic forces between particles and the repulsion between like charges help maintain the structure and separation of bodies in the universe.
They Would probably have like some chick take over the force or somethin.
Electromagnetic force is greater because in microscopic theories usually gravitational force is neglected and we can attract a pin from the ground by electro magnet easily yet smaller in size, both acts at the vast range but electromagnetic force is far more greater then gravitational.
Like, electromagnetic energy? Please specify what you mean.
The opposite force to gravitation is electromagnetism. Electromagnetic forces are responsible for interactions between charged particles, such as protons and electrons, and play a significant role in phenomena like chemical bonding and electromagnetic radiation.
No, it is attractive. The strong nuclear force, as it is known, is what overcomes the coloumbic repulsion of the positively charged protons, which would otherwise tend to fly apart due to the electromagnetic force (like charges repulse).
No. The strong nuclear force works through the exchange of a subatomic particle called a meson. Additionally, the strong nuclear force has to hold protons and neutrons together in the nucleus, so having a charge would have no effect on the neutrons.
Electromagnetic force can cause two objects to repel each other without touching. This force is carried by photons, which are the particles that transmit electromagnetic radiation such as light and radio waves. Opposite electric charges and like magnetic poles repel each other due to the electromagnetic force.