This type of mixture is called heterogenous mixture where substances in a certain mixture are not evenly spread.
All parts of a mixture have the same composition
Milk is a homogeneous mixture, as all parts of the mixture have the same composition.
A mixture that has the same composition throughout is homogeneous.
Coffee is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
If I remember correctly, a mixture with the same composition throughout is a homogeneous mixture~
Coffee is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
Coffee is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the Save original mixture.
Coffee is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
Coffee with cream is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
A mixture that has the same composition throughout is known as a homogeneous mixture. In a heterogeneous mixture there are localized regions with different properties.
Coffee with cream and sugar is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
Coffee with cream and sugar is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
Coffee with milk and sugar is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
No, this composition is variable.
I am not 100% sure, but i believe variable composition is when the composition of a mixture can vary, or contain different properties, elements/compounds... etc. An example of variable composition would be a heterogeneous mixture, which has no uniform way of being composed. Where as its opposite, a homogeneous mixture, has a set composition of the same properties, elements/compounds... etc. and can be recreated.
Coffee with cream and sugar is a homogeneous mixture (assuming it has been well-stirred), as the mixture has a uniform composition throughout. Dividing the mixture into macroscopic parts, each part will have the same composition as the original mixture.
This is a homogeneous mixture.
A mixture whose composition is not the same everywhere.
The percentage composition of a mixture has nothing to do with its homogeneity or otherwise. A mixture is homogeneous if its percentage composition - whatever that is - is the same throughout the mixture.
The term solution can be used to identify a mixture that has the same composition throughout.
A mixture whose composition is the same in all directions.
Because the definition of homogeneous mixture is when the composition is the same throughout. Now, think of a vanilla milkshake. You see that it has the same composition throughtout.
What happens is the composition of the compound becomes different and the composition of the mixture stays the same because you can have many types of mixtures.
The term gas can not be used to identify a mixture that has the same composition throughout. Gas is a state of matter.
Any particular isolated sample of a mixture has a definite chemical composition, but the general idea of a mixture, even of the same materials, implies variability in possible chemical composition.