A bag of M&M's is considered a mixture because it contains multiple components, including different colors and flavors of chocolate candies. Each M&M is made up of various ingredients, such as chocolate, sugar, and coating, which do not have a uniform composition throughout the bag. In contrast, a pure substance has a constant composition and distinct chemical properties.
Oh, dude, that's like when you mix your M&Ms and Skittles together but then realize you actually just wanted the M&Ms. It's called a mixture, where the substances are physically combined but can still be separated using methods like sorting or filtering. So yeah, it's basically like a failed attempt at a candy fusion experiment.
The ability to combine chemically through the formation of chemical bonds with another substance is a chemical property.
The generally accepted method that a cool poultice works to reduce swelling by is through contraction of the blood vessels by exposure to the cold poultice. The mixture of the poultice only matters insofar as it reduces the freezing point of the mixture and therefore can be made colder without freezing it.
LC is liquid chromatograph, this uses a liquid mobile phase (reverse phase more common, employing a polar column such as water and MeOH/ACN) to elute analytes from a mixture through interaction with a stationary phase (non polar, C18 in reverse most common). Separation is based on polarity of the analytes. This is run into the MS, or as you have written MS-MS. MS fragments compounds and they fragment in patterns that can identify families such as aldehydes etc. The main info given is the molecular ion (or rather a mass to charge ratio). In MS-MS, You can get fragmentation of the daughter ions resultant of the molecular ion which can further elucidate what the compound is. MS is the gold standard of analytical detection
There can be no equivalence. 2.75*10*6 ms is a measure of distance times time - which is a strange measure. Perhaps you meant ms^-1 which would be a measure of speed or velocity. Metre per length is a pure, dimensionless number. The two measure different things and, according to basic principles of dimensional analysis, any attempt at conversion from one to the other is fundamentally flawed.
This is a mixture as solutions require one substance (the solute) to dissolve in another substance (the Solvent), in a bowl of MnMs this does not happen, therefore it is a mixture. Hope this helped!
Yes, a bag of M&M's is a heterogeneous mixture because it contains different components (M&M candies) that can be easily distinguished and are not uniformly distributed throughout the bag.
Oh, dude, that's like when you mix your M&Ms and Skittles together but then realize you actually just wanted the M&Ms. It's called a mixture, where the substances are physically combined but can still be separated using methods like sorting or filtering. So yeah, it's basically like a failed attempt at a candy fusion experiment.
Yes, a bag of M&M's is a homogeneous mixture because all of the different colored M&M's are evenly distributed throughout the bag. This means that no matter where you sample from the bag, you will always get a similar mix of colors and flavors.
A bag of M&M's is classified as a homogeneous mixture because the different components (chocolate, candy shell) are evenly distributed and cannot be easily separated.
A bag of M&Ms is a mixture. It consists of multiple individual M&M candies, which are themselves a mix of various ingredients like chocolate, sugar, and food coloring.
There are no cups in bag of M&Ms. Sorry.
The number of M&Ms in a bag varies with the size of the bag and the type of M&Ms. (For example the number of Peanut M&Ms in a large bag varies from the number of Chocolate M&Ms in a small bag)
Mixture
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