Any particle, such as an electron, also behaves as a wave (as well as behaving like a particle).
Electric charges behave as a matter and it contains three building blocks of matter, they are :electrons, protons and neutrons of which two are electrically charge
Light behaves in TWO ways. It has the properties of BOTH Waves and Particles in its motion and transmission.
Electrons behave like waves and particles this is characterised by the wave side in the Bohr model and can be diffracted yet it will collide with other particles.
Electrons move in orbit and thus produce a magnetic field like a electromagnet.
a spinning electron produces a magnetic field that makes the electron behave like a tiny magnet
Electric charges behave as a matter and it contains three building blocks of matter, they are :electrons, protons and neutrons of which two are electrically charge
Electric charges behave as a matter and it contains three building blocks of matter, they are :electrons, protons and neutrons of which two are electrically charge
Light behaves in TWO ways. It has the properties of BOTH Waves and Particles in its motion and transmission.
condensed and expanded
Electrons behave like waves and particles this is characterised by the wave side in the Bohr model and can be diffracted yet it will collide with other particles.
Valence electrons can share and transfer to create a bond
Electrons are transferred when ionic bonds are formed.
Electrons move in orbit and thus produce a magnetic field like a electromagnet.
how electrons behave in their orbitals
a spinning electron produces a magnetic field that makes the electron behave like a tiny magnet
their atoms have 6 protons and 6 electrons.
The ways that a chemical bond to form is for the atoms to either lose or gain their valence electrons.