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∙ 8y agosolid
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∙ 8y agoIn solids the attraction is stronger.
bromide
particles move because when they do not the attraction of a particle and another stops making the particle theory wrong particles are always moving it what makes the attraction stronger
Temperature is a physical property measured in Kelvin degrees or Celsius degrees.
Particles of water at 0 degree Celsius have more energy than particles of ice at the same temperature because water molecules in the liquid state have more freedom of movement and are able to rotate, vibrate, and translate more easily than the tightly packed molecules in a solid structure like ice. This extra movement and freedom of motion result in higher kinetic energy for the particles of water compared to the particles of ice.
In solids the attraction is stronger.
bromide
My Penis
A solid at 25 degrees Celsius would have stronger attractions among its submicroscopic particles compared to a gas at the same temperature. In a solid, the particles are closely packed together and have strong intermolecular forces, leading to less movement and a more ordered structure. On the other hand, in a gas, the particles are far apart, have weaker intermolecular forces, and move freely in random directions.
Water has a stronger attraction between its particles compared to methane. This is evident in the higher boiling point of water, as the stronger intermolecular forces require more energy to break the bonds between water molecules. Methane, being a lighter molecule, has weaker intermolecular forces which results in a lower boiling point.
particles move because when they do not the attraction of a particle and another stops making the particle theory wrong particles are always moving it what makes the attraction stronger
As mercury is heated from 45 degrees Celsius to 365 degrees Celsius, its particles will gain energy and move faster. This increased thermal energy causes the particles to vibrate more quickly and spread out, leading to an expansion in volume. At the higher temperature, the motion of mercury particles will be more rapid and chaotic compared to when it was at 45 degrees Celsius.
Heat is actually a randomized kinetic energy, an energy of motion in other words, that exists on the very fine, microscopic or submicroscopic level of atoms and molecules. A motionless solid object, such as a rock sitting on your desk, still contains motion on the atomic level; the atoms are vibrating in place. If they are not, the rock would be ridiculously cold (minus 273 degrees Celsius). Heat transfer is a process by which the moving particles collide with other particles and transfer some of their kinetic energy to those other particles, which thereby become hotter.
Absolute zero is -273.15 degrees Celsius. At this temperature, particles have minimum movement and energy.
The temperature at which the motion of particles theoretically ceases is absolute zero, which is 0 Kelvin or -273.15 degrees Celsius. At this temperature, particles have the lowest possible energy and cease all movement.
Mercury is a liquid at room temperature and becomes a gas when heated to 356 degrees Celsius. As it is heated, the particles in the liquid mercury gain energy and move more rapidly, eventually breaking free from the liquid phase and becoming a gas. At the higher temperature, the particles move faster and farther apart, transitioning from the liquid to the gaseous state.
Yes, in a substance like steam at 110 degrees Celsius, the particles move most rapidly due to the high temperature causing increased kinetic energy. This leads to faster movement and more collisions between particles.