yes, all the matters have same weight if they are of the same quantity.
As the ice cube is solid , the particles are tightly packed together but as it melts it changes to a liquid so the particles change so that they are like particles in a liquid. the mass is conserved ( stays the same)
We know that for any given substance, and at a given pressure, the gas phase exists at a higher temperature than the liquid phase, which exists at a higher temperature than the solid phase. And temperature measures heat energy per molecule or atom, hence, gas particles have more energy than particles of the same substance in their liquid or solid phase.
No, a suspending agent helps solid particles stay suspended in a liquid without settling, while a dispersing agent disperses solid particles evenly throughout a liquid to prevent clumping or agglomeration.
Liquid has the greatest volume compared to gas or solid under normal conditions. This is because liquid particles are more closely packed together than gas particles, but less packed than solid particles, giving liquid a larger volume than both gas and solid.
The weight of a jar of ice will remain the same whether it is in solid or liquid form. When ice melts, it simply changes from a solid to a liquid, but the total weight of the jar and its contents remains constant.
As the ice cube is solid , the particles are tightly packed together but as it melts it changes to a liquid so the particles change so that they are like particles in a liquid. the mass is conserved ( stays the same)
That depends on the liquid and the solid. Liquid mercury has a very high density. Liquid gasoline has a very low density. At the melting point the density of a liquid and a solid are almost the same.
Yes, mass is conserved when a solid is dissolved in a liquid. The total mass of the solid and the liquid remains the same before and after dissolution. The solid particles disperse in the liquid, maintaining the overall mass of the system.
In solid form, chocolate particles are tightly packed, structured, and hold their shape. In liquid form, the particles are more spread out, fluid, and free-moving. The solid form will have a defined shape, while the liquid form will conform to the container it's in.
We know that for any given substance, and at a given pressure, the gas phase exists at a higher temperature than the liquid phase, which exists at a higher temperature than the solid phase. And temperature measures heat energy per molecule or atom, hence, gas particles have more energy than particles of the same substance in their liquid or solid phase.
No, a suspending agent helps solid particles stay suspended in a liquid without settling, while a dispersing agent disperses solid particles evenly throughout a liquid to prevent clumping or agglomeration.
The particles of a liquid retain the same volume but are not fixed in place. As they retain the same volume no matter what container they are in, it is possible to pour juice into a glass without the particles dispersing as the particles of a gas would. Because the particles of a liquid are not fixed in place, as in a solid, the liquid can flow and fit itself to the shape of the glass.
become liquid
Liquid has the greatest volume compared to gas or solid under normal conditions. This is because liquid particles are more closely packed together than gas particles, but less packed than solid particles, giving liquid a larger volume than both gas and solid.
The weight of a jar of ice will remain the same whether it is in solid or liquid form. When ice melts, it simply changes from a solid to a liquid, but the total weight of the jar and its contents remains constant.
"mg" is a measure of weight, the form (solid, powder, liquid etc) is irrelevant.
liquid to solid