Because of Particles, particles are microscopic specks that make up everything and everyone, when something is a solid the particles are all packed into each other and they vibrate, but since they are so tiny the vibrating is not seen, Solids can also not be poured, have a fixed shaped and can be weighed,
A liguids particles have a little more room and move around a litle bit more, Liquids can be poured, have no fixed shape and can be weighed.
Heat makes atoms "dance around" a lot. They dance farther away from each other. This helps the syrup flow easily. Coldness makes the atoms stay closer together. That makes the syrup harder to flow.
Pressure loss is typically larger in gas-liquid flow compared to liquid flow due to the compressibility of gas. Gas-liquid flow can experience significant pressure drops due to the expansion and compression of gas bubbles within the liquid, leading to greater friction losses.
Poking a hole in a can allows air to flow into the can, which helps the liquid flow out smoothly by breaking the vacuum seal. Without the hole, the liquid would flow slower due to the vacuum effect that restricts air entering the can to replace the liquid leaving.
A funnel is a tool that allows liquid to flow away by guiding it into a narrow opening.
The viscosity of a liquid is best defined as its resistance to flow. It measures how easily a liquid can flow and is influenced by factors such as temperature and molecular structure. Liquids with high viscosity flow more slowly than those with low viscosity.
Stock's flow means a slow flow of very viscous liquid when non-linear inertia's component can be neglected with respect to the value of friction force in the liquid. Re<<1
a liquid is able to flow because its freely moving particles allow liquid to flow from place to place
of course liquid can flow through a pipe?
Heat makes atoms "dance around" a lot. They dance farther away from each other. This helps the syrup flow easily. Coldness makes the atoms stay closer together. That makes the syrup harder to flow.
Pressure loss is typically larger in gas-liquid flow compared to liquid flow due to the compressibility of gas. Gas-liquid flow can experience significant pressure drops due to the expansion and compression of gas bubbles within the liquid, leading to greater friction losses.
Flow
A gas or a liquid.
A device for controlling the flow of liquid can sometimes be a pipe.
Increasing the density of a liquid typically results in an increase in viscosity. This is because higher density usually means more intermolecular interactions and greater resistance to flow. In other words, the molecules are packed more tightly, leading to stronger forces between them, which makes it more difficult for the liquid to flow.
resistance of flow such as honey
A jet of liquid or gas.
the viscosity of the liquid.