Solid has
-Defined Shape
-Defined Volume
The particle motion is as, they can vibrate, but they can't actually move from one place to another.
The denisty is..
D=M/V
Density = mass/volume
Unlike a solid, a liquid has no defined shape. It is able to take the shape of a container and flow freely. It maintains a fairly constant density. Its density is higher than a gas, but less than a solid. The particles have only temporary bindings, allowing them to travel freely.
In the solid state with the highest density.(Some compounds have more 'solid states' e.g. diamond: 3.515 g·cm−3, graphite: 2.267 g·cm−3, and amorphous carbon: 1.8-2.1 g·cm−3, are all different solid states of carbon)
The relative distribution of charge density on the surface of a conducting solid depends on the shape and geometry of the solid, as well as the presence of any nearby charges or electric fields. Additionally, the material properties of the solid, such as its conductivity and dielectric constant, can also influence the charge distribution.
Shape is important because it determines how a solid interacts with its environment and other objects. The shape of a solid affects its stability, ability to fit into specific spaces, and how it functions in different applications. Additionally, shape can influence properties such as strength, density, and surface area.
Because the particles can't move the object can't move which give it the shape and volume
Unlike a solid, a liquid has no defined shape. It is able to take the shape of a container and flow freely. It maintains a fairly constant density. Its density is higher than a gas, but less than a solid. The particles have only temporary bindings, allowing them to travel freely.
A solid typically has very little particle motion compared to liquids and gases. The particles in a solid are closely packed and vibrate in fixed positions, which restricts their ability to move around freely. This leads to solids having a definite shape and volume.
A particle that has a fixed shape and doesn't flow
In a solid, the particles are packed tightly together. They do not have a lot of room for motion. These particles are arranged in a regular, usually repeating pattern.
A rapid linear motion of a particle or of an elastic solid about an equilibrium position.
Particles in a liquid can move more freely and are able to flow past one another, allowing liquids to take the shape of their container. In contrast, particles in a solid are packed closely together in a fixed arrangement and can only vibrate in place, maintaining a definite shape and volume.
When a solid undergoes motion, its volume remains constant since solids have fixed shapes and densities. However, the shape of the solid can change depending on the type of motion it undergoes. For example, bending or stretching a solid can alter its shape while maintaining its volume.
The phases of matter in order from least particle motion to greatest particle motion are: solid, liquid, gas, and plasma. In a solid, particles are tightly packed and vibrate in place. In a liquid, the particles are more free to move around but still relatively close together. In a gas, particles move freely and rapidly, while in a plasma, particles are highly energized and move even more rapidly.
barely any. they just vibrate in place.
The settling velocity of solid particles in a fluid depends on the size, shape, density difference, and viscosity of the fluid. It can be calculated using Stokes' law, which considers these factors to determine the terminal velocity of a particle settling under gravity in a fluid. The settling velocity increases with increasing density difference and particle size, and decreases with increasing fluid viscosity.
To find the density of an irregular shape solid lighter than water, you can use the following steps: Weigh the solid in air to determine its mass (m). Weigh the solid while it is fully submerged in water to determine its apparent mass (m'). Calculate the density using the formula: Density = (m / (m - m')) * density of water.
solids always have a fixed shape because the particles in a solid are stuck together which means there is no where for the particle to move.