I need help with this homework. I've been sick and out of class and don't know...
help please this is all the information i have, im not sure how this is incomplete 8. Finish the LEWIS Structures for each compounds in the following reaction: H,0, +CH,OH + H.CO2H,0 How many polar molecules among the four compounds? Explain. 9. (a) Draw the Lewis structure(s) of nitrite ion. (b) Figure out the electron cloud geometry, the molecular geometry, and bond angle around the central atom. (c) Does the ion contain polar bond(s)? Is it a polar ion? Sketch...
PART I: HYDRIDES AND PERIODICITY Table 10-1. Lewis structures of hydrides Formula Total # of Valence Central Atom of Hydride Electrons Lewis Structure S aloon loro p ro bono di non auto Sad Ind o nesboro both bobom Table 10-2. Molecular geometries w of Lone Electron Electron-Pair Pairs Geometry Central Atom # of Bonded Electron Pairs Formula of Hydride Bond Angles) Molecular Shape ci TA's Initials PART II. FLUORINATED COMPOUNDS Table 10-3. Fluorinated compounds Total # of E. Pairs around...
please I need help with the data sheet INTRODUCTION The chemical and physical properties of substances are influenced by the way in which valence electrons are distributed and by the three-dimensional shape of the molecule or ion. X- ray and neutron diffraction, infrared, Raman and microwave absorption spectroscopy, as well as dipole moment measurements are used to ascertain the three-dimensional structure of a substance. Thus, techniques are available which can identify the geometry of substances. Results of these measurements generally...
2. For each of the following. (l) draw a Lewis diagram for the molecule. (it) count the number of elec tron groups around the central atom and the number of bonded electron groups, (ii) draw a three- dimensional representation of the molecule, (iv) give the values of the ideal bond angles, give the name of the electron-pair and molecular geometries, and (w) give the hybridization of the cen- tral atom. Example: NH, H-N-H H One non-bonding lone pair on N,...
please I need help with this Х Lab 11.pdf Lab 11.pdf INTRODUCTION The chemical and physical properties of substances are influenced by the way in which valence electrons are distributed and by the three-dimensional shape of the molecule or ion. X- ray and neutron diffraction, infrared, Raman and microwave absorption spectroscopy, as well as dipole moment measurements, are used to ascertain the three-dimensional structure of a substance. Thus, techniques are available which can identify the geometry of substances Results of...
I-L (6 points) Given the structure to the right answer the following questions. The structure to the right is the Lewis structure of the hormone epinephrine. H H Hom? Sp 3 HH CH IL a. How many pi (T)-bonds? b. How many sigma (G)-bonds? 26 c. What is the hybridization of each oxygen atom? Sp. 241 S d. How many sp hybridized carbons?_O e. How many sp² hybridized carbons?_ f. How many sp hybridized carbons? _ 3 g. What is...
1. (6 points) Given the structure to the right answer the following questions. The structure to the right is the Lewis structure of the hormone epinephrine. Η 2: Η c C C HHH HHH W- 0: a. How many pi (T)-bonds? b. How many sigma ()-bonds? c. What is the hybridization of each oxygen atom? d. How many sp hybridized carbons? e. How many sp2 hybridized carbons? f. How many sp hybridized carbons? g. What is the hybridization of the...
Determine the numbers of lone pairs and bond pairs around the central atom (only) for the following molecules (You need to determine the Lewis structure first) Also, indicate using VSEPR theory, what should be the electron geometry, molecular geometry, and bond angle for each of the molecules CH4
Determine the numbers of lone pairs and bond pairs around the central atom (only) for the following molecules (You need to determine the Lewis structure first) Also, indicate using VSEPR theory, what should be the electron geometry, molecular geometry, and bond angle for each of the molecules NH3
Trigonal Planar Electron Domain Geometry (EDG) These structures all have 3 areas of e density and bond angles are approximately 120° Areas of e density include lone pairs around the central atom and peripheral atoms attached to the central atom. As the number of lone pairs increase around the central atom the bond angles are slightly decreased. Possible Molecular Geometries from this EDG are: Trigonal Planar and Bent NO3- 1) Build table to identify the # of bonds: 2) Draw...