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What type of bonds are in an aspirin molecule?
The bonds in an aspirin molecule are covalent bonds. More specifically, the bonds in aspirin are a combination of single and double covalent bonds between carbon, hydrogen, and oxygen atoms.
Atom economy of aspirin?
C7H6O3............+........... C4H6O3 ----> C9H8O4 + CH3COOHsalicylic acid ....................aspirin(Mr=138)......................... (Mr=180)So besically, to work out the percentage atom economy of aspirin you have to divide the useful product (so in that case we are dividing salicylic acid to get the percentage mass of aspirin(of the useful product) by the mass of the reactants (aspirin)and then multiply by 100%to give you the percentage atom economy :)So it is: (138/180) x 100 = 76.6:)))
Is aspirin a element or compound?
Aspirin is a compound (2-acetoxybenzoic acid or acetyl salycilic acid).A compound. Elements are listed in the chemical element chart.
Is aspirin found in the periodic table?
Asprin is not an element, so it is not found on the periodic table.
How many moles is in 325 Mg of aspirin?
To find the number of moles in 325 mg of aspirin, you need to divide the mass in grams by the molar mass of aspirin (180.16 g/mol). 325 mg = 0.325 g 0.325 g / 180.16 g/mol = 0.0018 moles. Therefore, there are 0.0018 moles in 325 mg of aspirin.
What are the elements and atoms in aspirin?
Pure aspirin is salicylic acid acetate, and therefore contains carbon, hydrogen, and oxygen atoms, which are also elements.
How many molecules of aspirin C9H8O4 are there in a 100.0 mg tablet of aspirin?
It depends on the mass of the tablet and the molar mass of the aspirin molecule itself, find out the mass in grams of one tablet, divide it by the sum of the number of neutrons and protons in one molecule of aspirin and it will give you the molar mass of the aspirin tablet.
What information can be obtained from the aspirin NMR spectrum?
The aspirin NMR spectrum provides information about the chemical structure and environment of the atoms in the aspirin molecule. This includes the types of atoms present, their connectivity, and their chemical surroundings, which can help in identifying the compound and studying its properties.
What type of bonds are in an aspirin molecule?
The bonds in an aspirin molecule are covalent bonds. More specifically, the bonds in aspirin are a combination of single and double covalent bonds between carbon, hydrogen, and oxygen atoms.
Atom economy of aspirin?
C7H6O3............+........... C4H6O3 ----> C9H8O4 + CH3COOHsalicylic acid ....................aspirin(Mr=138)......................... (Mr=180)So besically, to work out the percentage atom economy of aspirin you have to divide the useful product (so in that case we are dividing salicylic acid to get the percentage mass of aspirin(of the useful product) by the mass of the reactants (aspirin)and then multiply by 100%to give you the percentage atom economy :)So it is: (138/180) x 100 = 76.6:)))
List the nameof each element that appears in the formula and give the number of atoms of each element present. HOOCC6H4OOCCH3?
Hydrogen - 8 Oxygen - 4 Carbon - 9 So, shorthand formula is C9H8O4 = aspirin
Is aspirin a element or compound?
Aspirin is a compound (2-acetoxybenzoic acid or acetyl salycilic acid).A compound. Elements are listed in the chemical element chart.
Is aspirin found in the periodic table?
Asprin is not an element, so it is not found on the periodic table.
How many moles is in 325 Mg of aspirin?
To find the number of moles in 325 mg of aspirin, you need to divide the mass in grams by the molar mass of aspirin (180.16 g/mol). 325 mg = 0.325 g 0.325 g / 180.16 g/mol = 0.0018 moles. Therefore, there are 0.0018 moles in 325 mg of aspirin.
Is aspirin a compound or a mixture?
Compound, as it is a single substance, held together with chemical bonds.
How do you calculate atoms?
As in number? No of atoms = avagadros number (6.02X10^23) times number of mole of atoms
What are the key features of the NMR spectrum of aspirin?
The key features of the NMR spectrum of aspirin include distinct peaks representing different hydrogen atoms in the molecule, chemical shifts indicating the chemical environment of each hydrogen atom, and coupling patterns showing interactions between neighboring hydrogen atoms.
