In a liquid forces are stronger.
The HR Diagram compares the relationship between the stars' absolute magnitudes or luminosities versus their spectral types or classifications and effective temperatures.
The motion of particles in a solid are much slower than those in the gas. Gaseous particles are very energetic and highly kinetic.
the particles move faster because there warmer
In an amorphous solid, the particle arrangement on both a macroscopic and microscopic scale has no periodicity, it is literally amorphous. On a crystalline solid, the particles arrangement is neat and ordered. There is a periodicity to the particles.
They have different masses, electrical charge, dimensions, life time, spin etc.
You compare their magnitudes.
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you will know the answer if you visualize it
What is the range of beta particles in air as compare to alpha particles?Read more: What_is_the_range_of_beta_particles_in_air_as_compare_to_alpha_particles
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
For a start, you can't compare a vector with a scalar, so you can't really compare a vector with its magnitude, either. To say which is larger, you can't even compare one vector with another - you can only compare their magnitudes.
it should have the same particles
According to the particle theory, particles move faster and further apart when exposed to higher temperatures. When a substance is heated, its particles acquire thermal energy. These energetic particles--which are constantly vibrating, even in solid form--become very excited, and move around much more, therefore requiring more space. The substance begins to increase in volume, creating larger spaces in between its molecules to accommodate the high-energy movement. This can also cause a change in state. Particles of substance in a solid state: vibrating slightly, densely packed together, little space between molecules. Compare to, Particles of substance in a gaseous state: vibrating excitedly, larger spaces in between molecules, easily compressible (due to empty spaces) If you were to cool a substance in gaseous form, the particles would begin to lose their thermal energy, and eventually change into a liquid state.
Dip an indicator into the substance and compare the colour to the chart.