the attraction between ions of opposite charge
do your part and put answers for novanet cmon
The force that holds you to a sled when it starts moving is friction between your body and the sled, as well as the force of gravity acting on you downwards. As the sled accelerates, friction between your body and the sled helps keep you in place and in motion together.
The force that holds air near Earth's surface is called gravity. Gravity is responsible for pulling air molecules towards the surface of the Earth, creating air pressure and keeping our atmosphere in place.
Static friction holds things in place when two surfaces are in contact and not moving relative to each other. This type of friction prevents objects from sliding against each other when a force is applied.
In an ionic lattice, electrons are tightly bound to specific ions and do not move freely throughout the lattice like in a metal lattice. This is because in an ionic lattice, the ions have opposite charges and form strong electrostatic attractions that hold the electrons in place. In contrast, in a metal lattice, the electrons are delocalized because the metal atoms share their outer electrons, allowing them to move freely throughout the lattice.
In a solid state, water particles are closely packed together in a fixed arrangement, forming a crystal lattice structure. The particles vibrate in place with very little movement, giving ice its rigid and solid form.
The force that holds the lattice structure in place in a crystal is primarily the electrostatic force between the positively charged atomic nuclei and the negatively charged electrons. This force keeps the atoms in a crystal matrix aligned in a specific arrangement, forming the lattice structure characteristic of that particular crystal.
the attraction between ions of opposite charge do your part and put answers for novanet cmon
the attraction between ions of opposite charge do your part and put answers for novanet cmon
A bezel is a grooved ring that holds a watch crystal in place. A lip encircles and overlaps the crystal, holding it in place.
In a lattice structure, the arrangement of atoms or molecules is held together by strong chemical bonds between neighboring particles. These bonds provide the necessary force to prevent the lattice from collapsing or breaking apart, helping to maintain the integrity and stability of the structure.
The lattice is held in place by the intermolecular forces between the atoms or molecules that make up the lattice structure. These forces can include ionic, covalent, metallic, or van der Waals interactions, depending on the type of lattice.
Gravity!
The water loosely held in a crystal structure is called "water of crystallization." It is water molecules that are incorporated into the crystal lattice of certain compounds, held in place by weak chemical bonds.
The ions in the lattice of a sodium crystal stay in place due to the strong electrostatic forces of attraction between the positively charged sodium ions and the negatively charged electrons. These forces create a stable structure where the ions are held in fixed positions in a repeating pattern. Any movement of the ions would require a significant amount of energy to overcome these forces.
Because centerfusal force holds them in place.
The force that holds the moon in place is gravity. Without gravity, there wouldn't be a moon.
The lattice energy of a compound is the energy released when gaseous ions come together to form a solid lattice structure. It is a measure of the strength of the ionic bonds within the solid. A higher lattice energy indicates stronger ionic bonding.