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What molecules have the same molecular formula but different structures and properties?
Isomers are compounds that have same molecular formulas but different structures. A familiar example is the case of glucose and fructose. Both have the same formula viz, C6H1206. But they have different structures and hence exhibit different properties.
Differences in r-groups give proteins different what?
Differences in R-groups give proteins different chemical properties, leading to variations in function, structure, and interactions with other molecules. These variations can impact the protein's role in biological processes and its overall behavior within a cell.
What structural feature is common to all geometric isomers?
Geometric isomers have different spatial arrangements around a double bond or a ring, leading to differences in their physical and chemical properties. This structural feature causes geometric isomers to have different geometries or shapes despite having the same molecular formula.
Why are there two different formulas for calculating a cylinder and a sphere?
Cylinders and spheres are different geometric shapes with different properties. The formulas for calculating their volume and surface area reflect these differences in shape and dimensions. The formula for a cylinder involves multiplying the base area by the height, while the formula for a sphere involves powers of the radius to account for its spherical shape.
What are three different shapes or structure of carbon based molecules?
Straight chain, branched chain, and ring
What do you know about a shapes molecules?
Molecules can have different shapes based on the arrangement of their atoms. The shapes of molecules are important because they influence the molecule's properties and how it interacts with other molecules. The shape of a molecule can affect its reactivity, polarity, and biological activity.
What is the shape and volume of the liquid molecul?
Different molecules have different shapes and volumes.
What does VSEPR. Theory describe?
The correct answer is: Why molecules have different shapes.
What describes VSEPR theory?
The correct answer is: Why molecules have different shapes.
What is the formula for finding the surface area?
There are different formulae for different shapes.
What is the formula used to find surface area?
There are different formulae for different shapes.
The large diversity of shapes of biological molecules is possible because of the extensive presence of?
The large diversity of shapes of biological molecules is possible because of the extensive presence of functional groups. Functional groups are specific groups of atoms within molecules that confer unique chemical properties and reactivity. These functional groups can interact with each other and with other molecules through various types of chemical bonds, leading to the wide array of shapes and structures seen in biological molecules.
What molecules have the same molecular formula but different structures and properties?
Isomers are compounds that have same molecular formulas but different structures. A familiar example is the case of glucose and fructose. Both have the same formula viz, C6H1206. But they have different structures and hence exhibit different properties.
What does a protein's shape determine, considering that proteins vary in shape?
A protein's shape determines its function, as different shapes allow proteins to interact with specific molecules in the body. Proteins with different shapes perform different roles in the body, such as enzymes facilitating chemical reactions or antibodies recognizing and binding to foreign substances.
What is the formula to find square millimeters?
the formulae are different for different shapes, you have to be more speciefic.
Why is a formula for a cone and a cylinder different?
Cones and cylinders are different shapes. Likewise you could not calculate the area of a square with the formula for a triangle.
Why do pure salt sugar and quartz all have different shapes?
The atoms of the salt. sugar, and quartz molecules bond together into different crystalline structures that result in their different natural shapes.
