Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Electrons are attracted to protons due to their opposite charges (positive, negative), and just like in your everyday magnet, opposites attract. That is why.
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
opposites attract
A positively charged ion (cation) is attracted to a negatively charged ion (anion). Cations have more protons than electrons, whereas anions have more electrons than protons. Electrons are negatively charged, and protons are positively charged.
The particles found in the area surrounding the nucleus are called electrons. Electrons are attracted to the protons in the nucleus, but are repelled from other electrons. This is why they can be found orbiting the nucleus.
The electrons "orbit" the nucleus of an atom. They do so because they are attracted to the positive charge of the protons inside the nucleus. They do not usually leave the atom because of this attraction, and do not usually fall into the nucleus because they are moving.
It is because both of them are oppositively charged particles. Since a proton is a positively charged particle and an electron is a negatively charged particle, hence they both develop an electrostatic force of attraction.
The three common subatomic particles are protons, neutrons, and electrons. Protons are found inside the nucleus and have a positive charge. Electrons are found outside of the nucleus and have a negative charge.
All molecular attractions are electrostatic in nature. Electrons are attracted to protons, and various combinations of electrons and protons can be attracted to other combinations of electrons and protons.
Electrons are attracted to protons. This is because protons have a positive charge and electrons have a negative charge. Due to the laws of magnetics these opposing charges will attract.
positive protons
protons, which are positively charged
Electrons are always attracted to protons, no matter what state they are in. They may move closer or further away from the nucleus depending on what state they are in, but they are always attracted.
The electron has a negative charge, so it would attract and be attracted by particles of opposite/unlike charge (positive charge) such as protons.
A positively charged ion (cation) is attracted to a negatively charged ion (anion). Cations have more protons than electrons, whereas anions have more electrons than protons. Electrons are negatively charged, and protons are positively charged.
Typically, the two particles that are attracted to each other are protons and electrons.
because negatives attract
Protons and electrons but strong forces keep them apart
Atoms are held up together by sharing electrons (covalent bonding) or by transfer of electrons (ionic bond).
the atom may not be stable