what is the structure formula and what is molecular weight and is there a hydrogen bond...
help completing the blanks
Substance Hydrogen Bond (Yes or No) Formula Molecular Structural Formulas Weight ethanol C2HgOH H-C-8-H 46.07 ges 1-propanol CзHон 1-butanol CдНоОн n-pentane C$H12 methanol CHHон n-hexane CeH14 CeH18 n-octane CeH12 cyclohexane C&H10 cyclohexene CaHsOH isobutanol
Experimen Name Date Pre-Laboratory Questions: 1. Complete the following table, which lists the substances used in the experiment. Substance Formula Structural Formula Molar mass All Intermolecular Forces methanol Сньон 3204. god ethanol C.HOH 1-propanol CH OH 2.propanol CsH OH 1-butanol синьон HIT acetone CsHO 2-butanone Сано n-pentane CsHua H H n-hexane C6H14 141
Intermolecular Forces Chemical Formula Dispersion (y/n) Diple-Diple (y/n) Hydrogen Bonding (y/n) n-pentane C5H12 n-hexane H6H14 n-heptane C7H16 n-decane C10H22 methanol CH3OH ethanol C2H5OH n-butanol C4H10O glycerol C3H8O3 n-butyl acetate C6H12O2 ethylene glycol C2H6O2 Indicate whether the following liquid reagents in the table above have dispersion forces, dipole-diple forces, and/ or hydrogen bonding with a yes/no in the table above. Thank you! :)
Based on the previous question and not have to predict the exact value; simply rank the liquids from greatest to least Al (Greatest AT = 1 and Lowest AT = 4) Substance Predicted AT Explanation (Why?) 1-butanol methanol n-pentane n-hexane Based on the previous question and table, Predict AT for the following liquids. You do not have to predict the exact value; simply rank the liquids from greatest to least AT (Greatest AT = 1 and Lowest AT = 4)...
Prior to doing the experiment, Procedure section). The name and formula are given for each compound. Draw the structure for each compound showing ALL bo type possi the complete a table like the one below in your notebook (Include at the end of the nds. Next, examine each molecule for the presence of intermolecular forces, including the strongest ible for covalent molecules-hydrogen bonding. Leave room in your notebook to show all work, determination of polar or nonpolar bonds using electronegativity...
Liquid Molar Mass (g/mol) Polarity (P, NP) Strongest type of Intermolecular Force Molecular structure Methanol Polar hydrogen bonds Ethanol Ipolar 1-Propanol polar 11-Butanol Ipolar n-Hexane Inon- polar n-Heptane Inon- I polar n-octane non- polar Acetone Polar 2- propanol polar 1. Which liquid tested has the strongest intermolecular forces? Justify your answer. (pt) Table 2 (15pes total) Minimum AT Initial Liquid temperature (°C) Methanol 17.8°C Ethanol 20+C |- Propanol 19.5°C 1-Butanol 19.8°C In-Hexane 18.4°C n-Heptane 20.7°C In-octane 19.4°C | Acetone 20.1.0...
2. Based on the chemical formula of methanol (CH,OH), ethanol (C2H5OH), propanol (C3H7OH) and butanol (C4H9OH), arrange these alcohols in order of increasing value ?? (lowest to highest), Explain your reasoning for your proposed order of increasing AH values for these four alcohols. 3.
In class work. Help?
Date Lab Partner EXPERIMENT 12 Intermolecular Forces substance | tmax (°C) | tmin (°C) ?T (tmax-tmin) Ethanol l-propanol Predicted Explanation I-butanol npentane Methanol n-hexane The molecular weights for n-pentane and 1-butanol are similar but the liquids have significantly different ?? values. Explain why the values are different I. 2. Which of the alcohols studied has the strongest intermolecular forces of attraction? Explain
rank the molecules in the table from weakest to strongest
intermolecular forces and briefly justify the ranking.
temperature 310 20 time (s) 40 Fig. 10.1. Sample data for an evaporative cooling process. Before You Come to Lab Based on what you know about the relationship between the structure of a molecule and the strength of its intermolecular forces, rank the molecules in the table below in order from the weakest to the strongest intermolecular forces and briefly justify your ranking...
Complete this chart
Formula Lewis Structure #of hydrogen bond donors #of hydrogen bond acceptors # of hydrogen bonds s If applicable, show how each compound would hydrogen bond with water. N(CH3)3 . H-C-N-C-H -CH H2CC(CH3)OCH(OH)NH2