they dont send out magnetic signals
In an electromagnetic wave, the electric and magnetic fields are perpendicular to each other, making a 90-degree angle. This relationship is described by Maxwell's equations and is a fundamental property of electromagnetic waves.
Electric charge is considered a fundamental quantity in physics. It is a property of matter that determines how objects interact with each other through electromagnetic forces.
Particles have an attraction to each other due to fundamental forces in nature. For example, electromagnetic forces between charged particles, like in atoms, create attractions. In quantum mechanics, these interactions are described by fields that govern how particles interact and form the fundamental structure of matter.
An electromagnetic field consists of both an electric field and a magnetic field, which are interconnected and interact with each other. This field is generated by the movement of electrically charged particles and is fundamental to the behavior of light and other electromagnetic radiation.
Electromagnetic rotation refers to the physical rotation of an object due to the interaction of magnetic fields. Electromagnetic induction, on the other hand, is the process where a changing magnetic field induces an electromotive force or voltage in a conductor, causing current to flow. In summary, electromagnetic rotation involves mechanical movement, while electromagnetic induction involves the generation of an electrical current.
In an electromagnetic wave, the electric and magnetic fields are perpendicular to each other, making a 90-degree angle. This relationship is described by Maxwell's equations and is a fundamental property of electromagnetic waves.
Elementary (fundamental) particles have not components; other particles (as protons and neutrons) are composed from other particles.
Electric charge is considered a fundamental quantity in physics. It is a property of matter that determines how objects interact with each other through electromagnetic forces.
A photon is a particle of electromagnetic radiation with no mass that carries a quantum of energy. It is the fundamental unit of light and other forms of electromagnetic radiation.
I can't see them from here, but other than magnitude, the only other thing about two forces that can be different is their direction.
Particles have an attraction to each other due to fundamental forces in nature. For example, electromagnetic forces between charged particles, like in atoms, create attractions. In quantum mechanics, these interactions are described by fields that govern how particles interact and form the fundamental structure of matter.
Sound is a mechanical wave that requires a medium, such as air or water, to propagate. Electromagnetic waves, on the other hand, do not require a medium and can travel through a vacuum. This fundamental difference in how they travel means that sound is not considered part of the electromagnetic spectrum.
An electromagnetic field consists of both an electric field and a magnetic field, which are interconnected and interact with each other. This field is generated by the movement of electrically charged particles and is fundamental to the behavior of light and other electromagnetic radiation.
Electromagnetic rotation refers to the physical rotation of an object due to the interaction of magnetic fields. Electromagnetic induction, on the other hand, is the process where a changing magnetic field induces an electromotive force or voltage in a conductor, causing current to flow. In summary, electromagnetic rotation involves mechanical movement, while electromagnetic induction involves the generation of an electrical current.
Gravity and electromagnetic force are both fundamental forces of nature that act over a distance. Gravity is the force that attracts two objects with mass toward each other, while electromagnetic force is the force responsible for interactions between electrically charged particles. Both forces follow an inverse-square law, meaning their strength decreases with distance squared.
Overtones refer specifically to the higher frequency components of a fundamental frequency, whereas partials encompass all frequencies, including the fundamental frequency. In other words, overtones are a subset of partials.
The letters in electromagnetic refer to the two fundamental components: "electro" stands for electric field and "magnetic" stands for magnetic field. These fields interact with each other to propagate energy and information through space in the form of electromagnetic waves.