An ionic compound, made up of cations and anions in an ionic lattice arrangement.
Could also be a polar-covalent bond
A molecule that has both a positive charge and negative charge is called a Zwitterion. A good example is an amino acid that has both an amino group and a carboxylic acid. In solution, the amino group will be positively charged and the carboxylic acid will be negatively charged for a net charge of zero.
An example of a molecule with both positive and negative charges is water (H2O). Water is a polar molecule with a partial positive charge on the hydrogen atoms and a partial negative charge on the oxygen atom.
A single molecule carrying both a positively charged section and a negatively charged section is said to have a dipole moment. If the dipole moment equals 1, the molecule is an ionic molecule and the ions will dissociate in a polar solvent.
Polyatomic ions have a positive or a negative charge.
A molecule which is positively charged in one section of the molecule and negatively charged in another section is described as a polar molecule. The most common example of this is water.
A dipole
nuetron
A compound with positive and negative charges is called an ionic compound. Ionic compounds are formed when a metal (which typically forms positive ions) reacts with a non-metal (which typically forms negative ions), resulting in an exchange of electrons to achieve stability.
No, nonpolar molecules do not have distinct positive or negative ends. This is because the electrons in the molecule are shared equally between the atoms, resulting in a balanced distribution of charge throughout the molecule.
Water molecules are polar, which means they have a slightly positive and negative end. The positively charged hydrogen atoms in water molecules are attracted to the negatively charged oxygen atom in neighboring water molecules, preventing hydrogen-hydrogen bonding. This results in hydrogen bonding only occurring between hydrogen and oxygen atoms of adjacent water molecules.
The equal but opposite charges present in the two regions of a polar molecule create a dipole moment, leading to the molecule having both a positive and a negative pole. This results in the molecule being attracted to other polar molecules through intermolecular forces such as hydrogen bonding.
A polar compound is a molecule that has an uneven distribution of electrons, resulting in partial positive and negative charges within the molecule. This creates a separation of charge, making the molecule have both a positive and negative end, and enabling it to interact with other polar molecules through dipole-dipole interactions. Water is a common example of a polar compound.
Water molecules are polar, which means they have a slightly positive and negative end. The positively charged hydrogen atoms in water molecules are attracted to the negatively charged oxygen atom in neighboring water molecules, preventing hydrogen-hydrogen bonding. This results in hydrogen bonding only occurring between hydrogen and oxygen atoms of adjacent water molecules.
both because every object has both positive and negative charges but mainly has positive charges.
Polar molecules like water do have distinct positive and negative poles due to an uneven distribution of charge within the molecule. In the case of water, the oxygen atom has a partial negative charge, while each hydrogen atom has a partial positive charge, resulting in a polar molecule.
A compound with positive and negative charges is called an ionic compound. Ionic compounds are formed when a metal (which typically forms positive ions) reacts with a non-metal (which typically forms negative ions), resulting in an exchange of electrons to achieve stability.
'Like' charges (both positive or both negative) repel.Unlike charges (one of each) attract.
the unlike charges are those which attract each other
It means both charges are of the same type: positive or negative.
Positive and negative charges would have not effect on an object without charge.
Two like charges will repel each and will be attracted to the opposite charges.
Positive charges will repel each other due to their similar charge. Similarly charged objects repel each other while opposite charges attract.
A neutron has no electric charge. However, it is made up of smaller particles (quarks), which have both positive and negative charges. The total sum of all these charges, in the case of a neutron, is zero.
No, nonpolar molecules do not have distinct positive or negative ends. This is because the electrons in the molecule are shared equally between the atoms, resulting in a balanced distribution of charge throughout the molecule.