HCl, dep. Calc. E0,V10,V11 https://notendur.hi.is/agust/rannsoknir/rempi/hcl/July12/PPT-130812ak.ppt.

Slides:

Advertisements

Similar presentations

Advertisements

HBr, E(1), one-color, VMI KER spectra VMI, E(1) vs J´(=J´´)………………………………………2 Branching ratios……………………………………………………………..3-4 Prediction calculations……………………………………………………5.

I 2 fs REMPI 1) Energetics / excitation calculations....slide 2 2) Absorption spectrum slides 3-6 3)REMPI spectrum slide.

HCl Deperturbations E1, V14, V15

Procedure for manipulating / analysing Dynamic NMR (DNMR) data (example: DNMR data for the compound 1-Silyl-1-Silacyclohexane, C5H10SiHSiH (schsih3) By.

SCH-tBu; working procedure; update:

HCl,  =0, H 3 7Cl and H35Cl analysis. agust,www,.....Sept10/PPT aak.ppt agust,heima,...Sept10/XLS ak.xls agust,heima,...Sept10/Look for J ak.pxp.

Slide 1Fig. 2.1a, p.25. Slide 2Fig. 2.1b, p.25 Slide 3Table 2.1, p.25.

Comparison of E(1), V(m+8), H(0) and V(m+7) VMI data: 1 color exp: KER spectra, 1color exp.……………………..…………..2-5 Beta2 vs J´,1 color exp.…………………………………….6-10.

CH3Br, Energy for CH3Br ->->-> CH3 + Br

Agust,www,....january09/PPT aka.ppt Agust,heima,... january09/XLS ak.xls About enhanced I( 35 Cl + )/I(H 35 Cl + ) values in a) g 3  + (1),v´=0.

Slide 1Fig. 22.1, p.669. Slide 2Fig. 22.3, p.670.

Slide 1Fig. 18.1, p.545. Slide 2Fig. 18.1e, p.545.

Slide 1Fig. 17.1, p.513. Slide 2Table 17.1, p.514.

Slide 1Fig. 19.1, p Slide 2Fig. 19.2, p. 583.

Slide 1Fig. 21.1, p.641. Slide 2Fig. 21.2, p.642.

NOTES: GRAPHING USING SLOPE & Y-INTERCEPT DAY 2. STEPS REWRITE IN SLOPE INTERCEPT FORM REWRITE IN SLOPE INTERCEPT FORM (Y = MX+B) LABEL SLOPE (M) AND.

Slide 1 of 45  Worked Examples Follow:. Slide 2 of 45.

Pnt I rel AK: ; agust,heima/rannsóknir/REMPI/HF/fra Wang/HF test skimmer pxp & HF t skimmer ppt Fig. 1.

HBr, F1D2, v´=1

HBr, F 1  2, v´=1

CH3Br, HBr detection agust, www,...Sept09/PPT ak.ppt.

HBr: F 1  2 (v´=1) V(v´=m+7) interaction: W 12 determination from line shifts: agust,heima,...June11/Peaks of F1 and V(m+7) detlta2 for HCl state jlak.xls.

HCl agust,heima,...Sept10/aHCl(3+1)j3S(0)Calc ak.pxp (JMS paper) agust,www,....Sept10/PPT ak.ppt agust,heima,...Sept10/HCl(3+1)j3Sigma(0) Calc ak.pxp.

HCl, , Morse pot. Fit to calc. F state (AB´s calc: AQZ HCl xls) Agust, www,...rempi/hcl/HCl,agust07-/HCl-Morse fit-F aak.ppt Agust,

200807, HCl: 1) PC,labtop....rannsoknir/HClmassFJ6-vhw-ak.pxp & xls and ppt 2) agust, heima../HCl/HCl,agust07-/ rannsoknir/HClmassFJ6-vhw-ak.pxp & xls.

Agust,heima,...january09/PPT ak.ppt cm cm-1 F, v´= cm-1 Agust,heima,..january09/PXP ak.pxp.

HCl, j(  =1) agust,www,...Sept10/PPT ak.ppt agust,heima,....Sept10/XLS ak.xls agust,heima,....Sept10/PXP ak.pxp agust,heima,...Sept10/Look.

HCl Calc. Vs exp (f3D2) state(Morse Pot): AK(PC-Labt)/C....Experiment ej.pxp AK(PC-Labt)/C....Experiment ejak.ppt Data from pxp file from EJ:

HBr agust,www,....June11/PPT ak.ppt agust, heima,...June11/XLS ak.xls agust, heima,....June11/PXP ak.pxp 1) HBr absorption vs excitations.

Figure 1.1 The observer in the truck sees the ball move in a vertical path when thrown upward. (b) The Earth observer views the path of the ball as a parabola.

CH3Br, agust,heima,...Nov09/CH3Br20102_ km.pxp agust,heima,...Jan10/CH3Br20102_ km ak.pxp Agust,heima,...Nov09/CH3Br-Overall.

$100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300.

HCl, negative ion detections 1hv ion-pair spectra (slides 3-4) Loock´s prediction about H+ + Cl- formation channels(slides 5-6) Energetics vs Dye for V(v´= )

HCl, X pot.: rv and Bv evaluations: Agust,www,...HClnov07-/HCl-Potentials aka.ppt PC-labt.C..../rannsoknir/wavef-X-CCSD-AQZ ak.xls PC-labt.C..../rannsoknir/wavef-X-CCSD-AQZ ak.pxp.

HI H(1) vs V(m+6) & O(0) vs. V(m+7):

HBr, E(0), KERs and relative intensities revisited: Content:pages: KER spectra and „channel.

HCl, E(v´=2) agust,www,…..hcl/June11/PPT ak.ppt agust,heima,…HCl/June11/HCl E2 spectra jl.pxp agust,heima,…HCl/June11/HCl E2 spectra jlaka.pxp.

HBr Energetics agust,www,....hbr/PPT ak.ppt agust, heima,...HBr/XLS ak.xls.

Instructions for Cell Cycle Foldable

HI, perturbation-I paper, summer-autumn, 2013: 1)H(1), V(m+6), m(0), R(0) –system 2)O(0), V(m+7), k(1) – system 3)I(0), V(m+9)-system „…..PPT ak.pptx“

HBr, V(m+4) (and E(0)) (Updated ; slide: 24-6) 1)KER spectra vs J´ (slides 2-3) 2)I(H + + Br(1/2))/I(H + + Br(3/2)) vs. J´(slide 4) 3)Comparison.

K GLE 20: Draw circles, squares, rectangles, and triangles.

CH3Br, one-color exp.: CHn+, iBr+ and CiBr+ ions vs CH3Br(Ry) states: Content: pages:

continued on next slide

continued on next slide

continued on next slide

goteachmaths.co.uk Car Race -

DCl (HCl) Heavy Rydberg states work Exploring V state spectra

SCH-Cl Summary of spectra vs T, (slides: 3-7 (“hot”); (“cold”))

GeCH-Me Summary of spectra vs T, DNMR analysis and figure for publication PPT:

SCH-Cl Summary of spectra vs T, (slides: 3-7 (“hot”); (“cold”))

VMI-fitting results for V(m+i), i=4-10

HBr Mass resolved REMPI and Imaging REMPI.

1. Claire has 4 cookies more than Max

HBr, dep. Calc. E0,Vm+4,Vm+5

CH3I VMI-REMPI data and analysis:

SCH-I Summary of spectra vs T, (slides: 3-7 (“hot”); 9-10(“cold”))

Natural Sciences and Technology Grade 5

What is, and is not, considered scientific

CF3Br agust,www,....cf3br/PPT ak.ppt agust,heima,....Sept10/XLS ak.xls

HCl, Deperturbation E1, V14, V15 (slides 2-7 )

Perturbation analysis in REMPI Spectra of HCl and HBr

continued on next slide

continued on next slide

Presentation transcript:

HCl, dep. Calc. E0,V10,V11

W3 W2 Points for 0 < D1 < for W2  W3 Lay:0 Gr:0 Above line: for W2  W3; below line: W2  W3 D1

Points for 0 < D1 < for W2  W3 W3 W2 Lay:0 Gr: D1

B1 Points for 0 < D1 < for W2  W3 W3 W2 Lay:1 Gr:1 Above line: for W2  W3; below line: W2  W3

B1 Points for 0 < D1 < for W2  W3 W3 W2 Lay:1 Gr:1 B1(max) Max B1 inside “the red dot circle” is ! (for W2,W3= 191,196) => D1 =

w2w3B B1(max) B1 range: 9.0 – 9.4

Try: 0 < D1 < 0.01:

W3 W2 Points for 0 < D1 < for W2  W3 Lay:0 Gr:0 Above line: for W2  W3; below line: W2  W3 D1

Points for 0 < D1 < for W2  W3 W3 W2 Lay:0 Gr: D1

B1 Points for 0 < D1 < for W2  W3 W3 W2 Lay:1 Gr:1 Above line: for W2  W3; below line: W2  W3

B1 Points for 0 < D1 < for W2  W3 W3 W2 Lay:1 Gr:1 Max B1 inside is ! (for W2,W3= 191,196) => D1 =

E(0) V(10) V(11) v1B1D1v2 B2D2v3B3D3WLWH , , , , , , , , , , , , , , , , , , , , , , , , ,037981,65E , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , HCl. E(0), V(10) V(11) all red dots in slide 5 above / slide 14 below

B´(V(11)) = 1.36 – 2.08 cm-1

HX,EvsV state paper-manuscript (Fig. 5b): Give highest B´ for V11: cm-1 B´(V11): 1.6 B´(V11): 1.9