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Matter is the one which occupies the space. Especially atoms, molecues or ions are bound by the interacting forces between them. The strength of this force decides wether it will be in the phase of solid or liquid or gaseous. Greatest force is the cause for the solidification. Where as the same will be weakest in gas of gaseous formation.
What else can I help you with?
How do forces between particles liquids compare to forces in the other states of matter?
the intermolecular forces/van der waals forces operate on an intermolecular scale giving you the 3 states of matter when these molecules are at different energy levels
Which matter has the minimum inter molecular force?
Intermolecular forces are weak in gases.
Which matter has the maximum intermolecular force?
Solid matter typically has the maximum intermolecular forces compared to liquids and gases. This is because the particles in a solid are closely packed together, allowing for stronger attractions between them such as van der Waals forces, hydrogen bonding, and dipole-dipole interactions.
What 3 things describe matter?
The three rules of matter are - 1. The particles of matter have space between them known as intermolecular spaces 2. The particles of matter attract to each other which are known as the forces of intermolecular attraction . The forces that attract to same particles are known as cohesive forces and the forces which attract to different types of matter are called adhesive forces 3.The particles of matter are made up of small small particles
What is the chief factor that determines the physical state of a sample of matter?
The chief factor that determines the physical state of a sample of matter is the intermolecular forces present between its particles. These forces determine how closely the particles are packed together and how they move, leading to the distinctive properties of solids, liquids, and gases.
How do forces between particles liquids compare to forces in the other states of matter?
the intermolecular forces/van der waals forces operate on an intermolecular scale giving you the 3 states of matter when these molecules are at different energy levels
Which matter has the minimum inter molecular force?
Intermolecular forces are weak in gases.
What is the relationship between thermal energy and intermolecular forces in each state of matter?
In each state of matter, intermolecular forces play a key role in determining the thermal energy present. For solids, strong intermolecular forces result in low thermal energy and a fixed shape. In liquids, moderate intermolecular forces allow for more thermal energy and a mobile arrangement of particles. In gases, weak intermolecular forces lead to high thermal energy and particles that are free to move independently.
Which matter has the maximum intermolecular force?
Solid matter typically has the maximum intermolecular forces compared to liquids and gases. This is because the particles in a solid are closely packed together, allowing for stronger attractions between them such as van der Waals forces, hydrogen bonding, and dipole-dipole interactions.
What 3 things describe matter?
The three rules of matter are - 1. The particles of matter have space between them known as intermolecular spaces 2. The particles of matter attract to each other which are known as the forces of intermolecular attraction . The forces that attract to same particles are known as cohesive forces and the forces which attract to different types of matter are called adhesive forces 3.The particles of matter are made up of small small particles
The physical state of a type of matter depends mostly upon what?
The physical state of matter depends mostly on the intermolecular forces between its particles. Strong intermolecular forces result in a solid state, moderate forces lead to a liquid state, and weak forces cause a gas state. Temperature and pressure also play a role in determining the physical state of matter.
What are he cHANGES THAT PLACE INSIDE THE MATTER DURING THE CHANGE OF STATE?
The thing that changes during a change of state is the intermolecular forces are disrupted. The temperature will not change because all of the energy is going into disrupting or organizing the intermolecular forces.
What is the chief factor that determines the physical state of a sample of matter?
The chief factor that determines the physical state of a sample of matter is the intermolecular forces present between its particles. These forces determine how closely the particles are packed together and how they move, leading to the distinctive properties of solids, liquids, and gases.
How is a solid and gas the same?
Solids and gases are both states of matter, however they differ in their shape, volume, and intermolecular forces. A solid has a fixed shape and volume with strong intermolecular forces holding the particles closely together, while a gas has no fixed shape or volume and weak intermolecular forces allowing the particles to move freely.
What is needed for matter to change states?
For matter to change states, energy must be added or removed. In a solid-liquid phase change, energy is added to break intermolecular forces. In a liquid-gas phase change, energy is added to overcome intermolecular forces and increase kinetic energy.
What determines the state of matter in an object?
The state of matter in an object is determined by the balance between the intermolecular forces of attraction and the thermal energy of the particles within the object. When thermal energy overcomes the intermolecular forces, the object transitions from solid to liquid to gas. The state of matter can also be influenced by factors like pressure and temperature.
Why state must be supplied with the most energy to turn it into a gas?
To turn a state of matter into a gas, we must overcome the intermolecular forces holding the particles together in that state. Gas particles have the highest energy out of all states of matter because they are not bound by these intermolecular forces, allowing them to move freely and independently from one another. This requires the input of the most energy to break these forces and transform the state into a gas.
