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How does the intermolecular forces between particles of matter in different states compare?
Intermolecular forces are very weak in gases. They are stronger in liquids, holding the molecules very close together, but still allowing motion around each other. They are strongest in solids, holding the molecules in a tight formation with only vibration about fixed positions.
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
How do hydrogen bounds compare with other intermolecular forces?
Hydrogen bonds are much stronger than other intermolecular forces.
Why can gases be squeezed much more than solids and liquids?
Gases have more space between their particles, which allows them to be compressed more than solids and liquids. In gases, the particles are in constant random motion and have higher kinetic energy, making them more easily squeezed together. Solids and liquids have stronger intermolecular forces that resist compression.
How do you compare and contrast subatomic particles?
They have different masses, electrical charge, dimensions, life time, spin etc.
Compare the magnitudes of dipole-dipole forces between particles of a substance in the liquid state to the gaseous state?
In a liquid forces are stronger.
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
How does the energy of the energy of the particles in a certain amount of liquid copper compare to the energy of the molecules in the same amount of liquid water why?
The energy of particles in liquid copper is generally higher than the energy of molecules in liquid water because the metallic bonding in copper leads to stronger forces between the particles. These stronger forces result in higher energy required to break the bonds between the particles in copper compared to the weaker intermolecular forces in water.
How do hydrogen bounds compare with other intermolecular forces?
Hydrogen bonds are much stronger than other intermolecular forces.
Why can gases be squeezed much more than solids and liquids?
Gases have more space between their particles, which allows them to be compressed more than solids and liquids. In gases, the particles are in constant random motion and have higher kinetic energy, making them more easily squeezed together. Solids and liquids have stronger intermolecular forces that resist compression.
What is the grammatic difference between compare to and compare with?
The grammatic difference between compare to and compare with is mainly that when a person compares something to something else it is different then comparing with.
The easiest way to distinguish between volcanic ash and volcanic dust particles is to compare their?
The easiest way to distinguish between volcanic ash and volcanic dust particles is to compare their diameter. Seismographs can be useful in predicting volcanic eruptions because they measure earthquake activity.
Why is fluidity higher in gases than liquids?
Fluidity is higher in gases compared to liquids because the intermolecular forces in gases are weaker, allowing gas particles to move more freely and rapidly. In liquids, the intermolecular forces are stronger, resulting in a more ordered and less mobile arrangement of molecules, which restricts their flow and fluidity.
What does compare and constract means?
Compare means to say what is alike between one or more things. Contrast is to say what is different between them.
How do you compare and contrast subatomic particles?
They have different masses, electrical charge, dimensions, life time, spin etc.
Compare the solubility of olive oil and acetic acid in water?
well the solubility of any substance depnds on the forces acting between water molecules and solute particles compared to the forces acting between the solute particles
How can one determine the boiling points of compounds?
The boiling points of compounds can be determined by considering the strength of the intermolecular forces between molecules. Compounds with stronger intermolecular forces, such as hydrogen bonding or dipole-dipole interactions, tend to have higher boiling points. Additionally, the size and shape of the molecules can also affect the boiling point. By analyzing these factors, one can predict and compare the boiling points of different compounds.
How does the total volume of gas particles compare to the volume of the space between the gas?
The amount of space that gas particles can take up is the size of the container, but the amount between them also is determined by the amount of space the gas takes up.
