How would you draw CH2CH(CH2)2CH3 in line angle structure?
how to do line angle for ch2ch(ch2 ch3)2
Write out the molecular formula for the following molecules: OH CO2H b. 2. Draw the molecules as a line-angle structure: a. CH3CH2C(CH3)2CH2CH3 b CH2CH(CH2)2CH3
i need help finding the molecular formula and how to draw the line angle structure. e. CH2CH=CHCH=CHCH=CH, CH3 CH3 f. CH2CH=CCH.CHCH OH
For the next condensed structure, draw the line-angle (skeletal) structure. Angle Structure: IV. Para la siguiente estructura condensada dibuje la estructura línea-ángulo (esqueletal). (4 puntos) Fórmula condensada Estructura en Línea-Angulo HHH c-c-H CH₂ H3C- CH c-H | HC-C-H HH CH3CH(OH)CH2CH(CH3)2
Consider each of the compounds. 1) Draw a large, stable line-angle structure with the correct bond angles. 2) Draw all appropriate resonance structures and indicate the major contributor. 3) Indicate all lone pair electrons on the atom. 4) Indicate the hybridization under each atom other than H a) CH2=CHCH(.)CH3 b) CH2=CHCH2CH(+)OH c) CH3CO(-)CH2
Consider each of the compounds. 1) Draw a large, stable line-angle structure with the correct bond angles. Do not show the hydrogen atoms. 2) Indicate any formal charge on top of the atom. 3) Indicate all lone pair electrons on the atom. 4) Indicate the hybridization under each atom other than H and Na. a) CH2=CHCH(.)CH3 b) CH2=CHCH2CH(+)OH c) CH3CO(-)CH2
Click the "draw structure" button to launch the drawing utility. Convert the condensed structure below to a complete structure, drawn with all atoms, bonds, and lone pairs. (CH3)2C=CH(CH2)2CH3
Draw the line angle structure of Caffeine (C8H10N4O2). - Using hatched arrows draw any bond dipole moments on your line angle structure. - Circle any trigonal planar atoms on your structure, if there are none, write 'none'. - Put a star next to any sp hybridized carbons in your molecule, if there are none, write 'none'.
Draw a condensed structure for 4-propyl-2,4,5-trimethylheptane. Then draw a line-angle formula for this compound.
Draw the Lewis structure for ClO2 -. Would you expect the O-Cl-O bond angle to be smaller, larger, or the same as the expected bond angle for its shape?