Draw and identify the geometry of methane, ammonia and water
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Lewis Structure, Electron Geometry, Molecular Geometry, and Drawings: 3-D Drawing Electron geometryMolecular Molecular Formula Methane: CH4 Lewis Structure 2 pt. ea 3 pt. ea. 1 pt. ea geometry (1 pt, ea.) initial Ammonia: NH2 initial Water H2O initial Formaldehyde H2CO initia Carbon Dioxide CO2 initial Acetylene: HCCH Both Carbons are central atoms initial
The electron geometry is tetrahedral, the molecular geometry is tetrahedral The electron geometry is tetrahedral, the molecular geometry is trigonal-pyramidal c. d. 8. Complete the following statements about phosphorus pentabromide, PBrs. The electron geometry is The molecular geometry is The hybridization of P is 9. Complete the following statements about ammonia, NH3. The electron geometry is The molecular geometry is The hybridization of N is et: methane ICHA metbanol
5. Draw the Lewis structure, specify the electron cloud geometry, molecular geometry and whether or not the molecule is polar or nonpolar. (4 pts.) a. ammonia - NH3
Identify limiting reactants (maximum product method). Consider the reaction of methane with ammonia and oxygen. 2CH4 (g) + 2NH3(g) + 302 (g) —2HCN (g) + 6H20 (1) Determine the limiting reactant in a mixture containing 175 g of CH4, 160 g of NH3, and 607 g of O2. Calculate the maximum mass (in grams) of hydrogen cyanide, HCN, that can be produced in the reaction. The limiting reactant is: CH4 O2 NH3 Amount of HCN formed = g
Hydrogen cyanide is used in the manufacture of clear plastics such as Plexiglas. It is prepared from ammonia (NH3) and methane (CH4) according to the following reaction. a. Calculate the value of q if 3.855 grams of ammonia react with excess oxygen and 5. methane b. Calculate the value of q if 4.394 grams of oxygen react with excess ammonia and methane. Calculate the value of q if 2.475 grams of methane reacts with excess oxygen and ammonia Calculate the...
You are investigating how methane (CH4) and ammonia (NH3) combine to generate cyanamide (H2NCN) and hydrogen gas H2) according to the following reaction: CH4(g) + 2NH3(g) → H2NCN(g) + 4H2(g) The lab's temperature on the day of the experiment is 24 ºC and the barometer is reading 753 mmHg. If you need to produce 0.455 grams of H2, what is the minimum volume of methane that is required? The minimum volume of methane needed is [V]
Draw the Lewis structure of CIBr, showing all lone pairs. Identify the molecular geometry of CIBry Select Draw Rings More Erase tetrahedral see-saw bent trigonal pyramidal T-shaped O linear octahedral trigonal planar O square pyramidal trigonal bipyramidal square planar What are the approximate bond angles in CIBr,? A CIBr, molecule is O polar. Ononpolar. 90° 109.5 120 180
Make Ammonia : N2 +H, NH3 Separate Water: H, O H ,+O Combust Methane: CH4 + 02 -CO, + H2O Determine for which elements the specified atoms are balanced or unbalanced in each of these chemical equations when every substance in the reaction is given a coefficient of one (1) Use the PhET simulation to assist you in solving this problem in the PhET simulation window, click on the Introduction icon at the bottom and select the bar-chart icon from...
Draw the Lewis structure of XeCl. Include all lone pairs. Identify the molecular geometry of Xeci, Select Draw Rings More Erase trigonal pyramidal T-shaped square planar O tetrahedral O octahedral trigonal planar linear trigonal bipyramidal square pyramidal bent O see-saw What are the approximate bond angles in XeCl,? An XeCl, molecule is O polar O nonpolar. 109.5° 90° 120° 180°
For each of these five molecules/ions: A) Draw a Lewis structure with the correct geometry. Draw all resonance structures when applicable. B) Identify the molecular shape. C) Identify the electronic region arrangement. D) Label the bond angles. 1) NH4+ 2) CF4 3) NF3 4) O3 (ozone) 5) CO2 Show all of your work in arriving at your final answer. Thank you!