Pages
31
August 30, '49
Block pointed out that, if γT2 = T1γ² = [const] as would be the case for termal broadening of the Sn isotopes, that our isotope identification would be backwards, since it turns out that
dv/dΔω hmax = -γ²([const.])T2²
[Now it] T2 = 1/γΔH and ΔH = kH, then T2 = 1/γkH = 1/kΔω & since we compare at [const.] freq, T2 = [const] [therefore] our γ² correction is correct on opposite page.
Test Sample #5 A (5075 [right arrow] 5050)
Width | Dist. Marker Res. Dist. (Markers) |
---|---|
3.0 mm | 111.8 mm 20.5 mm |
3.1 | |
3.2 | |
2.7 | ν = 5070.5 KC |
3.4 | |
3.0 | rate = 25/111.8 = 0.222 KC/mm |
3.1 |
32
8600 8575) B Width Dist Markey Res. Dist 5.2mm 79.3mm 6.5mm 4.0 (Markey 2) 3.8 4.0 v=8597.9 KC 3.8 Av=4.16 +- 0.57 Rate=25/79.3=0.316 KC/mm =4.16(1+-0.14)mm Width Ratio=4.16(1+-0.14)x0.316/3.07(1+-0.07)x0.222=1.93(1+-0.16) =1.93+-0.31 Freg Ratio=8597.9/5070.5=1.70 Width Ratio/Freg Ratio=1.14(1+-0.16) =1.14+-0.18
33
min = 2.6 uN spin = 1/2 Sept. 1, 1949 Se- Sample Spin 1/2 7.7 gms of SeO2 dissolved in 5 cc. H2O makes 7 cc soln Molarity = 10 M 1.2 gms of MnSO4 H2O added not all dissolved SEARCH From 7.00 MC -> 5.30 MC v(Na23) = 7.29 MC RANGE OF MAGNETIC MOMENT 0.709 uN -> 0.537 uN Sept. 2 1949 Search B Remarks: very moving in places From 7.20 MC -> 5.55 MC v(Na23) = 5.025 MC N.G. Record thrown away RANGE 1.058 uN -> 0.815 uN Sept. 5 1949 Search C. more or less OK. From 6.50 -> 4.53 MC v(Na23) = 5.02 MC RANGE 0.955 uN -> 0.665 uN
34
Selenium Search B xx 4/5 KG C 4.5 KG A 6/6 KG 10.5 KG 0.5 1.0 1.5 uN Sept 8 1949 Se Search v(H2) = 6.74 MC