Yes, it is true.
Gases - force of attraction is very weak - the particles in gases have a lot of space in between them - move very freely - gases are the least dense (from solids and liquids) - particles in gases are very "excited" and move around a lot.
The forces are referred to as intermolecular forces, a substances tendency for its molecules to attract to eachother. The stronger these forces are, the more likely a substance will find itself to be solid at room temperature. The reason for this is that the attraction to its own molecules is great enough that the individual particles kinetic energies are not enough to break the intermolecular force. If the IMF is weak, the substance is more likely to be a liquid or even a gas because the attraction to its own molecules is not enough to overcome the particles kinetic energies. In addition the larger a substances chemical structure is, the more surface area available for a molecule to interact and thus the IMFs are stronger, Examples of substances with strong IMFs: Water, NaCl, ethanol, amines Examples of substances with weak IMFs: aliphatic hydrocarbons ( propane ), acetone, ether
The attraction is called "nuclear force". Its details are still unclear, but one of its most important characteristics is that it is effective only over very short distances. In fact the attractive strong force is electrostatic and the repulsion is magnetic. The electromagnetic interaction is not so feeble as it is usually assumed.
The state of matter depends on the closeness of the particles. Gases have particles that are very far apart and solids are close together. This is determined by the strength of attraction of these particles to one another.
The forces of attraction between molecules in a molecular compound are generally weaker than those in an ionic compound. These forces are typically known as van der Waals forces or London dispersion forces, which are based on temporary fluctuations in electron distribution within the molecules. The strength of these forces can vary depending on the molecular structure and shape of the compound.
Solids have a strong force of attraction between its particles, which is why they have a fixed shape and volume. Liquids have a weaker force of attraction compared to solids, allowing them to flow and take the shape of their container. Gases have very weak forces of attraction between particles, which is why they can expand to fill the space of their container.
There are strong forces of attraction between particles in a solid.
when the distance between the atoms or molecules increases the force of attraction becomes less and the atoms or particles fall apart and generate distances betwen them . gas is the same form of the element just as liquid the only difference is the distance between particles is large and the force of attraction is very less.
Yes, it is true.
it depends on the force of attraction between is atoms. if they are compact, i.e.; the atoms are are very much close & their force of attraction is very high the substance belongs to solid state.
The force of attraction between Newton and other people was very small.
The force of gravitational attraction between two objects is strongest when their masses are large and they are very close together. For example, a planet and a star or two massive celestial bodies would experience a strong gravitational attraction between them.
negligible due to their small masses. The force of gravity between the hand and notebook is very weak compared to the other interactions in the environment.
-- Gravity ... attraction between any two masses-- Magnetic force ... attraction or repulsion between a magnet and magnetic materials,or between conductors carrying electric current-- Electrostatic force ... attraction or repulsion between electric charges, like theballoon and the wall, the comb and the bits of tissue, the socks and the shirtsin the dryer, etc.-- Strong nuclear force ... attraction between particles in the nucleus of the atom;only works over very short distances ... like inside the nucleus of an atom.
They are too weak to have an effect at great distrances between gas particles.
The attractive force between particles in the nucleus is known as the strong nuclear force. It is responsible for holding protons and neutrons together in the nucleus. This force is extremely strong but acts only over very short distances.
Sodium Chloride is a solid because it is an ionic compound and hence there is a very strong force of attraction between the ions. This strong force of attraction makes the ionic compounds hard and solid