Draw the structures of all possible dichloro derivatives of: a) n-butane b) isobutane
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
Draw the structures of all possible dichloro derivatives of: a) n-butane b) isobutane
n-butane and isobutane are in equilibrium at 25 degrees centigrade: n-butane (g) isobutane (g) A one liter flask with the two species at equilibrium contains 0.170 mole isobutane and 0.0680 mole n-butane. Then the concentration of n-butane is increase by 0.200 moles. (0.200 mole n-butane is added.) What is the new equilibrium concentration for isobutane? Assume value for K c remains constant throughout process. Hint--this is a hard problem. At equilibrium (which you are given) you can find...
butane exists as two isomers n butane and isobutane kp = 2.5 at 25 degrees celsius what is the pressure of isobutane in a container of the two isomers at equilibrium with a total pressure of 1.22 atm
also make an enthalpy table. n-Butane is converted to isobutane in a continuous isomerization reactor that operates isothermally at 149.0°C. The feed to the reactor contains 96.00 mole%n-butane, 2.00% isobutane, and 2.00% HCl at 149.0°C, and a 35.00% conversion of n-butane is achieved. In the following calculations, one should use at least five significant figures. Physical Property Tables Feed and Product Composition Taking a basis of 1 mol of feed gas, calculate the moles of each component of the feed...
Please do either 1.28 or 1.30 their carbon skeletons. They are constitutional isomers. isobutane butane One final written first followed by hydrogen, and lecules, carbon is alwa n alphabetical order note pertaining to molecular formulas is that, for organic mo all other elements are written last i Problems for Section 1.10A raw Kekulé structures for the constitutional isomers with formula C.Hs (there should be four structures). Calculate the IHD for this formula. 1.27 D 1.28 Draw Kekulé structures for the...
Show that the equilibrium mole fraction of n-butane and isobutane are given AGO RT 0 1SO iSO 1SO 0 iSo
A mixture containing 35 mole% n-butane and the balance isobutane at 10°C enters a heat exchanger at a rate of 24.5 kmol/h and at 1.96 bar pressure. The exchanger has been designed to heat and vaporize the liquid and heat the vapor mixture to 180°C. The heating fluid is a high molecular weight liquid with a constant heat capacity (Cp=2.62 kJ/kg C).It enters the exchanger at 215°C and flows countercurrently to the hydrocarbon mixture. According to the heat exchanger design...
Draw the structure(s) of all of the possible monochloro derivatives of 2,6 dimethylheptane, CoH 1gCL . You do not have to consider stereochemistry. . Draw one structure per sketcher. Add additional sketchers using the drop-down menu in the botton Separate structures with + signs from the drop-down menu. ChemDoodle
Draw the structure(s) of all of the possible monochloro derivatives of 2,3-dimethylbutane, C6H13Cl. You do not have to consider stereochemistry. Draw one structure per sketcher. Add additional sketchers using the drop-down menu in the bottom right corner. Separate structures with + signs from the drop-down menu.
Question 1.3: A mixture consisting of 1 mol-% ethane, 5 mol-% propane, 44 mol-% n-butane, and 50 mol-% isobutane is brought to a condition of 70 °F at pressure 44 psia. Using De-Priester charts determine the molar fractions of the liquid and vapour phases and their compositions [3 marks] Question 1.3: A mixture consisting of 1 mol-% ethane, 5 mol-% propane, 44 mol-% n-butane, and 50 mol-% isobutane is brought to a condition of 70 °F at pressure 44 psia....
1. Draw and name five different isomers of 1,1 Dichloro butane (20) 2. Name this molecule (5) CH 0 CH CH.CCHCCH CHỊ CI 3. Draw this molecule 2,3-dimethyl pentanoic acid. (4) What is the name of its conjugate base? (4) Name this molecule. (4) Draw and name the hydration product of this molecule. (8) 10- CH CH \CH2 CHIC-C-