%% The NE11 Aluminum results, in Tex format %% (these are the tables in the Phys. Rev. C. article) \input phyzzx \pagenumber=18 \baselineskip 15pt \twelvepoint \def\eprime{E^{\,\prime}} \noindent Table I. Cross section per nucleon for inelastic electron scattering from aluminum from this experiment. Also shown are values of $\nu W_2/A$ extracted assuming $R=0.32/Q^2$. The errors are statistical only, and do not include an overall normalization error of about 3\%. \vskip .1in \input tables \def\usy#1{\null\undertext{#1\vphantom{$_s$}}} \def\pze{\phantom{0}} \thicksize=0pt \thinsize=0 pt \tablewidth=5.8in \hsize=5.8in \vsize=8.6in \def\tstrut{\vrule height 10 pt depth 4 pt width 0pt} \def\tstrutt{\vrule height 16 pt depth 4 pt width 0pt} \hrule \vskip 3pt \hrule \vskip .1in \begintable \hbox to 1.3 cm {\hfill $\eprime$ \hfill} & \hbox to 2.1 cm {\hfill $Q^2$ \hfill} & \hbox to 1.9 cm { } & \hbox to 2.0 cm { } & \hbox to 2.0 cm { } & \hbox to 3.1 cm {\hfill $d\sigma /d\Omega d\eprime$ \hfill} & \hbox to 2.7 cm {\hfill $\nu W_2/A$ \hfill} \nr (GeV) & (GeV/c)$^2$ & $\epsilon$ & $x$ & $\xi$ & (nb/sr-GeV) & $(\times 1000)$ \nrneg{10pt} \multispan7 \tstrut\us{\hbox to \tablewidth{}}\nr \multispan{7}\tstrutt\hfil $E=1.968$ \hskip .20in $\theta=55.208$ \hfil \nr 1.100 & 1.859 & 0.565 & 1.141 & 0.798 & $ 0.683\pm 0.042$ & $ 15.7\pm 1.0\pze$ \nr 1.072 & 1.812 & 0.559 & 1.078 & 0.768 & $ 0.938\pm 0.037$ & $ 22.1\pm 0.9\pze$ \nr 1.044 & 1.764 & 0.552 & 1.017 & 0.740 & $ 1.12\pm 0.04$ & $ 26.9\pm 1.1\pze$ \nr 1.016 & 1.717 & 0.545 & 0.961 & 0.712 & $ 1.32\pm 0.09$ & $ 32.3\pm 2.2\pze$ \nr 0.988 & 1.670 & 0.537 & 0.908 & 0.684 & $ 1.52\pm 0.13$ & $ 37.9\pm 3.1\pze$ \nr 0.960 & 1.622 & 0.529 & 0.857 & 0.657 & $ 1.85\pm 0.11$ & $ 46.8\pm 2.8\pze$ \nr 0.932 & 1.575 & 0.521 & 0.810 & 0.630 & $ 1.89\pm 0.17$ & $ 48.7\pm 4.4\pze$ \nr \multispan{7}\tstrutt\hfil $E=2.407$ \hskip .20in $\theta=41.110$ \hfil \nr 1.582 & 1.878 & 0.723 & 1.213 & 0.826 & $ 0.786\pm 0.111$ & $ 9.47\pm 1.34$ \nr 1.550 & 1.839 & 0.718 & 1.143 & 0.796 & $ 1.12\pm 0.12$ & $ 13.9\pm 1.5\pze$ \nr 1.517 & 1.800 & 0.712 & 1.078 & 0.768 & $ 1.67\pm 0.07$ & $ 21.5\pm 0.9\pze$ \nr 1.484 & 1.762 & 0.706 & 1.018 & 0.739 & $ 2.12\pm 0.07$ & $ 28.0\pm 0.9\pze$ \nr 1.452 & 1.723 & 0.699 & 0.961 & 0.712 & $ 2.53\pm 0.07$ & $ 34.3\pm 1.0\pze$ \nr 1.419 & 1.684 & 0.692 & 0.908 & 0.685 & $ 2.69\pm 0.13$ & $ 37.5\pm 1.8\pze$ \nr 1.386 & 1.646 & 0.685 & 0.859 & 0.659 & $ 3.23\pm 0.12$ & $ 46.2\pm 1.7\pze$ \nr 1.354 & 1.607 & 0.678 & 0.813 & 0.634 & $ 3.51\pm 0.11$ & $ 51.4\pm 1.6\pze$ \nr 1.321 & 1.568 & 0.670 & 0.770 & 0.609 & $ 3.71\pm 0.13$ & $ 55.4\pm 2.0\pze$ \nr 1.288 & 1.529 & 0.662 & 0.729 & 0.585 & $ 4.98\pm 0.77$ & $75.9\pm11.7 $ \nr \multispan{7}\tstrutt\hfil $E=2.407$ \hskip .20in $\theta=58.882$ \hfil \nr 1.103 & 2.567 & 0.486 & 1.049 & 0.812 & $ 0.196\pm 0.018$ & $ 11.3\pm 1.0\pze$ \nr 1.075 & 2.500 & 0.479 & 1.000 & 0.784 & $ 0.251\pm 0.016$ & $ 14.7\pm 0.9\pze$ \nr 1.046 & 2.434 & 0.471 & 0.953 & 0.756 & $ 0.301\pm 0.021$ & $ 17.7\pm 1.2\pze$ \nr 1.018 & 2.367 & 0.464 & 0.908 & 0.729 & $ 0.400\pm 0.041$ & $ 23.7\pm 2.4\pze$ \nr 0.989 & 2.301 & 0.456 & 0.865 & 0.702 & $ 0.472\pm 0.033$ & $ 28.1\pm 2.0\pze$ \nr 0.961 & 2.235 & 0.448 & 0.823 & 0.675 & $ 0.644\pm 0.047$ & $ 38.5\pm 2.8\pze$ \nr \multispan{7}\tstrutt\hfil $E=2.837$ \hskip .20in $\theta=44.993$ \hfil \nr 1.607 & 2.669 & 0.650 & 1.156 & 0.868 & $ 0.175\pm 0.025$ & $ 5.69\pm 0.80$ \nr 1.573 & 2.613 & 0.644 & 1.101 & 0.840 & $ 0.317\pm 0.026$ & $ 10.5\pm 0.9\pze$ \nr 1.539 & 2.557 & 0.637 & 1.049 & 0.811 & $ 0.367\pm 0.020$ & $ 12.3\pm 0.7\pze$ \endtable \hrule \vskip 3pt \hrule \vskip -.03in \hskip 4.9in {\tenpoint \it continued} \endpage \tablewidth=5.8in \hsize=5.8in \vsize=8.6in \noindent Table I. continued. \vskip 5pt \hrule \vskip 3pt \hrule \vskip .1in \begintable \hbox to 1.3 cm {\hfill $\eprime$ \hfill} & \hbox to 2.1 cm {\hfill $Q^2$ \hfill} & \hbox to 1.9 cm { } & \hbox to 2.0 cm { } & \hbox to 2.0 cm { } & \hbox to 3.1 cm {\hfill $d\sigma /d\Omega d\eprime$ \hfill} & \hbox to 2.7 cm {\hfill $\nu W_2/A$ \hfill} \nr (GeV) & (GeV/c)$^2$ & $\epsilon$ & $x$ & $\xi$ & (nb/sr-GeV) & $(\times 1000)$ \nrneg{10pt} \multispan7 \tstrut\us{\hbox to \tablewidth{}}\nr 1.505 & 2.500 & 0.630 & 1.000 & 0.784 & $ 0.485\pm 0.026$ & $ 16.6\pm 0.9\pze$ \nr 1.471 & 2.444 & 0.623 & 0.953 & 0.757 & $ 0.576\pm 0.034$ & $ 20.0\pm 1.2\pze$ \nr 1.437 & 2.387 & 0.616 & 0.909 & 0.730 & $ 0.583\pm 0.061$ & $ 20.5\pm 2.2\pze$ \nr 1.403 & 2.331 & 0.608 & 0.866 & 0.704 & $ 0.793\pm 0.048$ & $ 28.3\pm 1.7\pze$ \nr 1.369 & 2.275 & 0.600 & 0.826 & 0.679 & $ 0.992\pm 0.052$ & $ 35.8\pm 1.9\pze$ \nr 1.335 & 2.218 & 0.591 & 0.787 & 0.654 & $ 1.12\pm 0.09$ & $ 40.9\pm 3.2\pze$ \nr \multispan{7}\tstrutt\hfil $E=2.837$ \hskip .20in $\theta=61.205$ \hfil \nr 1.155 & 3.397 & 0.438 & 1.076 & 0.867 & $0.0633\pm0.0201$ & $ 6.90\pm 2.19$ \nr 1.130 & 3.323 & 0.432 & 1.038 & 0.842 & $0.0658\pm0.0085$ & $ 7.19\pm 0.93$ \nr 1.105 & 3.250 & 0.426 & 1.000 & 0.819 & $0.0943\pm0.0100$ & $ 10.3\pm 1.1\pze$ \nr 1.080 & 3.177 & 0.420 & 0.964 & 0.795 & $ 0.120\pm 0.013$ & $ 13.2\pm 1.4\pze$ \nr 1.055 & 3.104 & 0.414 & 0.928 & 0.772 & $0.0990\pm0.0225$ & $ 10.9\pm 2.5\pze$ \nr 1.030 & 3.030 & 0.408 & 0.894 & 0.748 & $ 0.157\pm 0.019$ & $ 17.2\pm 2.1\pze$ \nr 1.006 & 2.957 & 0.401 & 0.860 & 0.726 & $ 0.182\pm 0.020$ & $ 20.0\pm 2.2\pze$ \nr 0.981 & 2.884 & 0.394 & 0.828 & 0.703 & $ 0.203\pm 0.033$ & $ 22.2\pm 3.6\pze$ \nr \multispan{7}\tstrutt\hfil $E=3.400$ \hskip .20in $\theta=34.694$ \hfil \nr 2.146 & 2.594 & 0.761 & 1.102 & 0.839 & $ 0.574\pm 0.083$ & $ 10.9\pm 1.6\pze$ \nr 2.107 & 2.547 & 0.756 & 1.050 & 0.811 & $ 0.704\pm 0.044$ & $ 13.7\pm 0.9\pze$ \nr 2.068 & 2.500 & 0.750 & 1.000 & 0.784 & $ 0.912\pm 0.046$ & $ 18.2\pm 0.9\pze$ \nr 2.029 & 2.453 & 0.744 & 0.953 & 0.757 & $ 0.880\pm 0.047$ & $ 17.9\pm 1.0\pze$ \nr 1.990 & 2.406 & 0.737 & 0.909 & 0.731 & $ 1.20\pm 0.10$ & $ 25.0\pm 2.0\pze$ \nr \multispan{7}\tstrutt\hfil $E=3.400$ \hskip .20in $\theta=44.482$ \hfil \nr 1.700 & 3.311 & 0.615 & 1.038 & 0.842 & $ 0.137\pm 0.022$ & $ 7.94\pm 1.24$ \nr 1.668 & 3.250 & 0.609 & 1.000 & 0.819 & $ 0.139\pm 0.020$ & $ 8.13\pm 1.16$ \nr 1.637 & 3.189 & 0.602 & 0.964 & 0.795 & $ 0.194\pm 0.024$ & $ 11.5\pm 1.4\pze$ \nr 1.605 & 3.128 & 0.596 & 0.929 & 0.773 & $ 0.233\pm 0.043$ & $ 13.8\pm 2.6\pze$ \nr \multispan{7}\tstrutt\hfil $E=3.400$ \hskip .20in $\theta=57.572$ \hfil \nr 1.289 & 4.066 & 0.441 & 1.027 & 0.862 & $0.0392\pm0.0083$ & $ 5.95\pm 1.26$ \nr 1.260 & 3.972 & 0.435 & 0.989 & 0.836 & $0.0396\pm0.0078$ & $ 6.01\pm 1.19$ \nr 1.230 & 3.878 & 0.428 & 0.952 & 0.810 & $0.0724\pm0.0132$ & $ 11.0\pm 2.0\pze$ \nr \multispan{7}\tstrutt\hfil $E=3.956$ \hskip .20in $\theta=28.409$ \hfil \nr 2.709 & 2.581 & 0.830 & 1.103 & 0.838 & $ 0.686\pm 0.117$ & $ 8.43\pm 1.43$ \nr 2.666 & 2.541 & 0.825 & 1.050 & 0.811 & $ 1.01\pm 0.10$ & $ 12.8\pm 1.2\pze$ \nr 2.624 & 2.500 & 0.820 & 1.000 & 0.784 & $ 1.25\pm 0.10$ & $ 16.3\pm 1.3\pze$ \nr 2.581 & 2.460 & 0.815 & 0.954 & 0.758 & $ 1.35\pm 0.11$ & $ 18.0\pm 1.5\pze$ \nr 2.539 & 2.419 & 0.810 & 0.910 & 0.732 & $ 1.41\pm 0.15$ & $ 19.3\pm 2.0\pze$ \endtable \hrule \vskip 3pt \hrule \vskip -.03in \hskip 4.9in {\tenpoint \it continued} \endpage \tablewidth=5.8in \hsize=5.8in \vsize=8.6in \noindent Table I. continued. \vskip 5pt \hrule \vskip 3pt \hrule \vskip .1in \begintable \hbox to 1.3 cm {\hfill $\eprime$ \hfill} & \hbox to 2.1 cm {\hfill $Q^2$ \hfill} & \hbox to 1.9 cm { } & \hbox to 2.0 cm { } & \hbox to 2.0 cm { } & \hbox to 3.1 cm {\hfill $d\sigma /d\Omega d\eprime$ \hfill} & \hbox to 2.7 cm {\hfill $\nu W_2/A$ \hfill} \nr (GeV) & (GeV/c)$^2$ & $\epsilon$ & $x$ & $\xi$ & (nb/sr-GeV) & $(\times 1000)$ \nrneg{10pt} \multispan7 \tstrut\us{\hbox to \tablewidth{}}\nr \multispan{7}\tstrutt\hfil $E=3.956$ \hskip .20in $\theta=35.382$ \hfil \nr 2.296 & 3.355 & 0.730 & 1.077 & 0.865 & $ 0.206\pm 0.048$ & $ 7.26\pm 1.71$ \nr 2.260 & 3.303 & 0.724 & 1.038 & 0.842 & $ 0.190\pm 0.030$ & $ 6.78\pm 1.08$ \nr 2.224 & 3.250 & 0.719 & 1.000 & 0.819 & $ 0.277\pm 0.035$ & $ 10.0\pm 1.3\pze$ \nr 2.188 & 3.198 & 0.713 & 0.964 & 0.796 & $ 0.343\pm 0.040$ & $ 12.6\pm 1.5\pze$ \nr 2.152 & 3.145 & 0.707 & 0.929 & 0.774 & $ 0.429\pm 0.058$ & $ 16.0\pm 2.1\pze$ \nr \multispan{7}\tstrutt\hfil $E=3.956$ \hskip .20in $\theta=43.707$ \hfil \nr 1.887 & 4.138 & 0.604 & 1.066 & 0.887 & $0.0655\pm0.0252$ & $ 5.67\pm 2.18$ \nr 1.850 & 4.057 & 0.598 & 1.027 & 0.861 & $0.0655\pm0.0126$ & $ 5.72\pm 1.10$ \nr 1.813 & 3.976 & 0.591 & 0.989 & 0.836 & $0.0555\pm0.0111$ & $ 4.87\pm 0.97$ \nr 1.777 & 3.895 & 0.583 & 0.952 & 0.811 & $0.0887\pm0.0161$ & $ 7.84\pm 1.42$ \nr \multispan{7}\tstrutt\hfil $E=3.956$ \hskip .20in $\theta=59.291$ \hfil \nr 1.310 & 5.071 & 0.393 & 1.021 & 0.883 & $0.0086\pm0.0033$ & $ 2.23\pm 0.85$ \nr 1.284 & 4.970 & 0.388 & 0.991 & 0.861 & $0.0187\pm0.0047$ & $ 4.81\pm 1.20$ \nr 1.258 & 4.869 & 0.382 & 0.962 & 0.839 & $0.0236\pm0.0060$ & $ 6.05\pm 1.54$ \nr \multispan{7}\tstrutt\hfil $E=4.507$ \hskip .20in $\theta=35.592$ \hfil \nr 2.447 & 4.121 & 0.705 & 1.066 & 0.887 & $0.0969\pm0.0354$ & $ 5.42\pm 1.98$ \nr 2.405 & 4.050 & 0.699 & 1.027 & 0.861 & $0.0977\pm0.0190$ & $ 5.54\pm 1.07$ \nr 2.363 & 3.979 & 0.692 & 0.989 & 0.836 & $ 0.137\pm 0.022$ & $ 7.84\pm 1.24$ \nr 2.321 & 3.908 & 0.686 & 0.953 & 0.811 & $ 0.127\pm 0.023$ & $ 7.34\pm 1.31$ \nr 2.279 & 3.837 & 0.679 & 0.918 & 0.787 & $ 0.240\pm 0.058$ & $ 14.1\pm 3.4\pze$ \nr \multispan{7}\tstrutt\hfil $E=4.507$ \hskip .20in $\theta=45.658$ \hfil \nr 1.865 & 5.062 & 0.543 & 1.021 & 0.883 & $0.0173\pm0.0062$ & $ 2.67\pm 0.95$ \nr 1.833 & 4.974 & 0.536 & 0.991 & 0.861 & $0.0150\pm0.0055$ & $ 2.32\pm 0.86$ \nr 1.800 & 4.885 & 0.530 & 0.962 & 0.840 & $0.0395\pm0.0097$ & $ 6.10\pm 1.50$ \nr \multispan{7}\tstrutt\hfil $E=5.507$ \hskip .20in $\theta=15.145$ \hfil \nr 4.765 & 1.823 & 0.956 & 1.309 & 0.851 & $ 8.59\pm 1.21$ & $ 11.0\pm 1.6\pze$ \nr 4.721 & 1.806 & 0.955 & 1.224 & 0.821 & $ 7.42\pm 0.82$ & $ 10.1\pm 1.1\pze$ \nr 4.676 & 1.789 & 0.953 & 1.148 & 0.793 & $12.6\pm 1.0\pze$ & $ 18.0\pm 1.4\pze$ \nr 4.632 & 1.772 & 0.952 & 1.079 & 0.765 & $14.2\pm 1.0\pze$ & $ 21.4\pm 1.5\pze$ \nr 4.588 & 1.755 & 0.950 & 1.018 & 0.739 & $17.9\pm 1.1\pze$ & $ 28.3\pm 1.8\pze$ \nr 4.544 & 1.738 & 0.949 & 0.961 & 0.714 & $22.3\pm 1.2\pze$ & $ 36.8\pm 2.0\pze$ \endtable \hrule \vskip 3pt \hrule \vskip -.03in \hskip 4.9in {\tenpoint \it continued} \endpage \tablewidth=5.8in \hsize=5.8in \vsize=8.6in \noindent Table I. continued. \vskip 5pt \hrule \vskip 3pt \hrule \vskip .1in \begintable \hbox to 1.3 cm {\hfill $\eprime$ \hfill} & \hbox to 2.1 cm {\hfill $Q^2$ \hfill} & \hbox to 1.9 cm { } & \hbox to 2.0 cm { } & \hbox to 2.0 cm { } & \hbox to 3.1 cm {\hfill $d\sigma /d\Omega d\eprime$ \hfill} & \hbox to 2.7 cm {\hfill $\nu W_2/A$ \hfill} \nr (GeV) & (GeV/c)$^2$ & $\epsilon$ & $x$ & $\xi$ & (nb/sr-GeV) & $(\times 1000)$ \nrneg{10pt} \multispan7 \tstrut\us{\hbox to \tablewidth{}}\nr 4.499 & 1.721 & 0.947 & 0.910 & 0.689 & $23.9\pm 1.1\pze$ & $ 41.4\pm 2.0\pze$ \nr 4.455 & 1.704 & 0.945 & 0.863 & 0.666 & $25.2\pm 1.3\pze$ & $ 45.4\pm 2.3\pze$ \nr 4.411 & 1.687 & 0.943 & 0.820 & 0.643 & $26.3\pm 1.6\pze$ & $ 49.3\pm 3.1\pze$ \nr 4.367 & 1.670 & 0.941 & 0.781 & 0.622 & $30.4\pm 1.8\pze$ & $ 59.2\pm 3.5\pze$ \nr 4.322 & 1.654 & 0.939 & 0.744 & 0.601 & $31.3\pm 1.9\pze$ & $ 63.2\pm 3.8\pze$ \nr 4.278 & 1.637 & 0.936 & 0.710 & 0.581 & $32.1\pm 2.0\pze$ & $ 67.1\pm 4.3\pze$ \nr 4.234 & 1.620 & 0.934 & 0.678 & 0.562 & $36.0\pm 2.8\pze$ & $ 77.8\pm 6.0\pze$ \nr 4.189 & 1.603 & 0.931 & 0.648 & 0.543 & $33.7\pm 8.4\pze$ & $75.3\pm18.7 $ \nr \multispan{7}\tstrutt\hfil $E=5.507$ \hskip .20in $\theta=18.981$ \hfil \nr 4.466 & 2.674 & 0.927 & 1.369 & 0.956 & $ 0.390\pm 0.108$ & $ 1.69\pm 0.47$ \nr 4.417 & 2.645 & 0.925 & 1.294 & 0.925 & $ 0.794\pm 0.116$ & $ 3.59\pm 0.52$ \nr 4.369 & 2.616 & 0.923 & 1.225 & 0.895 & $ 0.949\pm 0.119$ & $ 4.47\pm 0.56$ \nr 4.320 & 2.587 & 0.921 & 1.162 & 0.866 & $ 1.35\pm 0.11$ & $ 6.62\pm 0.54$ \nr 4.272 & 2.558 & 0.918 & 1.104 & 0.837 & $ 1.75\pm 0.10$ & $ 8.91\pm 0.51$ \nr 4.223 & 2.529 & 0.915 & 1.050 & 0.810 & $ 2.70\pm 0.12$ & $ 14.2\pm 0.6\pze$ \nr 4.175 & 2.500 & 0.913 & 1.000 & 0.784 & $ 2.80\pm 0.13$ & $ 15.3\pm 0.7\pze$ \nr 4.126 & 2.471 & 0.910 & 0.954 & 0.758 & $ 3.06\pm 0.13$ & $ 17.3\pm 0.7\pze$ \nr 4.078 & 2.442 & 0.907 & 0.911 & 0.734 & $ 3.85\pm 0.14$ & $ 22.4\pm 0.8\pze$ \nr 4.029 & 2.413 & 0.904 & 0.870 & 0.710 & $ 4.61\pm 0.17$ & $ 27.7\pm 1.0\pze$ \nr 3.981 & 2.384 & 0.901 & 0.832 & 0.687 & $ 4.76\pm 0.24$ & $ 29.4\pm 1.5\pze$ \nr 3.932 & 2.355 & 0.897 & 0.797 & 0.665 & $ 5.87\pm 0.28$ & $ 37.4\pm 1.8\pze$ \nr 3.884 & 2.326 & 0.894 & 0.764 & 0.644 & $ 6.72\pm 0.36$ & $ 43.9\pm 2.3\pze$ \nr 3.836 & 2.297 & 0.890 & 0.732 & 0.623 & $ 8.06\pm 0.78$ & $ 54.1\pm 5.2\pze$ \nr \multispan{7}\tstrutt\hfil $E=5.507$ \hskip .20in $\theta=22.804$ \hfil \nr 3.907 & 3.363 & 0.875 & 1.120 & 0.889 & $ 0.406\pm 0.064$ & $ 5.35\pm 0.84$ \nr 3.863 & 3.326 & 0.871 & 1.078 & 0.865 & $ 0.505\pm 0.045$ & $ 6.81\pm 0.60$ \nr 3.819 & 3.288 & 0.868 & 1.038 & 0.841 & $ 0.604\pm 0.043$ & $ 8.34\pm 0.60$ \nr 3.775 & 3.250 & 0.865 & 1.000 & 0.819 & $ 0.743\pm 0.046$ & $ 10.5\pm 0.6\pze$ \nr 3.731 & 3.212 & 0.861 & 0.964 & 0.796 & $ 0.841\pm 0.043$ & $ 12.1\pm 0.6\pze$ \nr 3.688 & 3.175 & 0.858 & 0.930 & 0.775 & $ 0.959\pm 0.045$ & $ 14.1\pm 0.7\pze$ \nr 3.644 & 3.137 & 0.854 & 0.897 & 0.754 & $ 1.00\pm 0.05$ & $ 15.1\pm 0.8\pze$ \nr 3.600 & 3.099 & 0.850 & 0.866 & 0.734 & $ 1.26\pm 0.07$ & $ 19.2\pm 1.1\pze$ \nr 3.556 & 3.061 & 0.846 & 0.836 & 0.714 & $ 1.48\pm 0.09$ & $ 23.0\pm 1.4\pze$ \nr 3.512 & 3.024 & 0.841 & 0.808 & 0.694 & $ 1.64\pm 0.11$ & $ 26.0\pm 1.7\pze$ \nr 3.468 & 2.986 & 0.837 & 0.781 & 0.676 & $ 2.13\pm 0.25$ & $ 34.4\pm 4.0\pze$ \endtable \hrule \vskip 3pt \hrule \vskip -.03in \hskip 4.9in {\tenpoint \it continued} \endpage \tablewidth=5.8in \hsize=5.8in \vsize=8.6in \noindent Table I. continued. \vskip 5pt \hrule \vskip 3pt \hrule \vskip .1in \begintable \hbox to 1.3 cm {\hfill $\eprime$ \hfill} & \hbox to 2.1 cm {\hfill $Q^2$ \hfill} & \hbox to 1.9 cm { } & \hbox to 2.0 cm { } & \hbox to 2.0 cm { } & \hbox to 3.1 cm {\hfill $d\sigma /d\Omega d\eprime$ \hfill} & \hbox to 2.7 cm {\hfill $\nu W_2/A$ \hfill} \nr (GeV) & (GeV/c)$^2$ & $\epsilon$ & $x$ & $\xi$ & (nb/sr-GeV) & $(\times 1000)$ \nrneg{10pt} \multispan7 \tstrut\us{\hbox to \tablewidth{}}\nr \multispan{7}\tstrutt\hfil $E=5.507$ \hskip .20in $\theta=26.823$ \hfil \nr 3.508 & 4.157 & 0.818 & 1.108 & 0.913 & $0.0717\pm0.0250$ & $ 2.13\pm 0.74$ \nr 3.459 & 4.099 & 0.813 & 1.066 & 0.886 & $ 0.114\pm 0.015$ & $ 3.45\pm 0.44$ \nr 3.410 & 4.041 & 0.808 & 1.027 & 0.861 & $ 0.156\pm 0.015$ & $ 4.81\pm 0.45$ \nr 3.361 & 3.983 & 0.803 & 0.989 & 0.836 & $ 0.221\pm 0.015$ & $ 6.93\pm 0.47$ \nr 3.312 & 3.925 & 0.798 & 0.953 & 0.812 & $ 0.267\pm 0.013$ & $ 8.51\pm 0.42$ \nr 3.263 & 3.867 & 0.793 & 0.918 & 0.788 & $ 0.321\pm 0.015$ & $ 10.4\pm 0.5\pze$ \nr 3.214 & 3.809 & 0.787 & 0.885 & 0.765 & $ 0.413\pm 0.020$ & $ 13.6\pm 0.6\pze$ \nr 3.165 & 3.750 & 0.781 & 0.853 & 0.743 & $ 0.495\pm 0.024$ & $ 16.5\pm 0.8\pze$ \nr 3.116 & 3.692 & 0.775 & 0.823 & 0.721 & $ 0.548\pm 0.038$ & $ 18.5\pm 1.3\pze$ \nr \multispan{7}\tstrutt\hfil $E=5.507$ \hskip .20in $\theta=32.829$ \hfil \nr 2.913 & 5.124 & 0.713 & 1.052 & 0.905 & $0.0378\pm0.0079$ & $ 2.89\pm 0.60$ \nr 2.871 & 5.051 & 0.708 & 1.021 & 0.883 & $0.0586\pm0.0085$ & $ 4.52\pm 0.65$ \nr 2.830 & 4.978 & 0.703 & 0.991 & 0.861 & $0.0588\pm0.0083$ & $ 4.57\pm 0.64$ \nr 2.789 & 4.906 & 0.697 & 0.962 & 0.840 & $0.0830\pm0.0103$ & $ 6.50\pm 0.81$ \nr 2.748 & 4.833 & 0.691 & 0.933 & 0.819 & $0.0875\pm0.0137$ & $ 6.90\pm 1.08$ \nr \multispan{7}\tstrutt\hfil $E=9.800$ \hskip .20in $\theta=13.248$ \hfil \nr 7.900 & 4.121 & 0.952 & 1.156 & 0.938 & $ 0.260\pm 0.076$ & $ 1.57\pm 0.46$ \nr 7.837 & 4.088 & 0.950 & 1.110 & 0.911 & $ 0.589\pm 0.091$ & $ 3.66\pm 0.57$ \nr 7.775 & 4.056 & 0.949 & 1.067 & 0.886 & $ 0.696\pm 0.091$ & $ 4.47\pm 0.58$ \nr 7.712 & 4.023 & 0.947 & 1.027 & 0.860 & $ 0.860\pm 0.098$ & $ 5.68\pm 0.65$ \nr 7.650 & 3.990 & 0.945 & 0.989 & 0.836 & $ 1.07\pm 0.11$ & $ 7.24\pm 0.73$ \nr 7.587 & 3.958 & 0.943 & 0.953 & 0.813 & $ 1.16\pm 0.11$ & $ 8.10\pm 0.80$ \nr 7.525 & 3.925 & 0.941 & 0.919 & 0.790 & $ 1.42\pm 0.13$ & $ 10.1\pm 0.9\pze$ \nr 7.462 & 3.892 & 0.939 & 0.887 & 0.769 & $ 1.75\pm 0.16$ & $ 12.8\pm 1.2\pze$ \nr 7.400 & 3.860 & 0.937 & 0.857 & 0.748 & $ 2.06\pm 0.21$ & $ 15.5\pm 1.6\pze$ \nr 7.337 & 3.827 & 0.935 & 0.828 & 0.727 & $ 2.27\pm 0.42$ & $ 17.5\pm 3.2\pze$ \endtable \hrule \vskip 3pt \hrule \vskip -.03in \hskip 4.9in {\tenpoint \it continued} \endpage \tablewidth=5.8in \hsize=5.8in \vsize=8.6in \noindent Table I. continued. \vskip 5pt \hrule \vskip 3pt \hrule \vskip .1in \begintable \hbox to 1.3 cm {\hfill $\eprime$ \hfill} & \hbox to 2.1 cm {\hfill $Q^2$ \hfill} & \hbox to 1.9 cm { } & \hbox to 2.0 cm { } & \hbox to 2.0 cm { } & \hbox to 3.1 cm {\hfill $d\sigma /d\Omega d\eprime$ \hfill} & \hbox to 2.7 cm {\hfill $\nu W_2/A$ \hfill} \nr (GeV) & (GeV/c)$^2$ & $\epsilon$ & $x$ & $\xi$ & (nb/sr-GeV) & $(\times 1000)$ \nrneg{10pt} \multispan7 \tstrut\us{\hbox to \tablewidth{}}\nr \multispan{7}\tstrutt\hfil $E=9.800$ \hskip .20in $\theta=15.367$ \hfil \nr 7.351 & 5.151 & 0.927 & 1.121 & 0.949 & $ 0.131\pm 0.052$ & $ 1.81\pm 0.71$ \nr 7.293 & 5.110 & 0.925 & 1.086 & 0.926 & $ 0.176\pm 0.038$ & $ 2.47\pm 0.54$ \nr 7.235 & 5.069 & 0.923 & 1.053 & 0.904 & $ 0.150\pm 0.033$ & $ 2.15\pm 0.47$ \nr 7.176 & 5.029 & 0.921 & 1.021 & 0.882 & $ 0.199\pm 0.037$ & $ 2.92\pm 0.54$ \nr 7.118 & 4.988 & 0.918 & 0.991 & 0.861 & $ 0.289\pm 0.044$ & $ 4.31\pm 0.65$ \nr 7.060 & 4.947 & 0.916 & 0.962 & 0.841 & $ 0.383\pm 0.051$ & $ 5.83\pm 0.78$ \nr 7.002 & 4.906 & 0.914 & 0.934 & 0.821 & $ 0.682\pm 0.072$ & $ 10.6\pm 1.1\pze$ \nr 6.944 & 4.866 & 0.911 & 0.908 & 0.802 & $ 0.644\pm 0.078$ & $ 10.2\pm 1.2\pze$ \nr 6.885 & 4.825 & 0.909 & 0.882 & 0.783 & $ 0.802\pm 0.109$ & $ 12.9\pm 1.7\pze$ \nr 6.827 & 4.784 & 0.906 & 0.858 & 0.765 & $ 0.784\pm 0.219$ & $ 12.8\pm 3.6\pze$ \nr \multispan{7}\tstrutt\hfil $E=9.800$ \hskip .20in $\theta=17.515$ \hfil \nr 6.802 & 6.181 & 0.896 & 1.099 & 0.956 & $0.0265\pm0.0100$ & $ 0.730\pm 0.275$ \nr 6.748 & 6.132 & 0.893 & 1.071 & 0.936 & $0.0643\pm0.0125$ & $ 1.80\pm 0.35$ \nr 6.694 & 6.083 & 0.891 & 1.044 & 0.917 & $0.0873\pm0.0131$ & $ 2.48\pm 0.37$ \nr 6.640 & 6.034 & 0.888 & 1.018 & 0.898 & $ 0.122\pm 0.015$ & $ 3.51\pm 0.43$ \nr 6.587 & 5.985 & 0.885 & 0.993 & 0.880 & $ 0.107\pm 0.014$ & $ 3.13\pm 0.41$ \nr 6.533 & 5.936 & 0.883 & 0.968 & 0.862 & $ 0.127\pm 0.016$ & $ 3.75\pm 0.46$ \nr 6.479 & 5.888 & 0.880 & 0.945 & 0.844 & $ 0.157\pm 0.018$ & $ 4.71\pm 0.54$ \nr 6.425 & 5.839 & 0.877 & 0.922 & 0.827 & $ 0.189\pm 0.022$ & $ 5.73\pm 0.66$ \nr 6.371 & 5.790 & 0.874 & 0.900 & 0.810 & $ 0.234\pm 0.029$ & $ 7.20\pm 0.91$ \nr 6.317 & 5.741 & 0.871 & 0.878 & 0.794 & $ 0.285\pm 0.052$ & $ 8.87\pm 1.62$ \nr \multispan{7}\tstrutt\hfil $E=9.800$ \hskip .20in $\theta=19.753$ \hfil \nr 6.203 & 7.154 & 0.855 & 1.060 & 0.944 & $0.0328\pm0.0107$ & $ 1.68\pm 0.55$ \nr 6.154 & 7.097 & 0.852 & 1.037 & 0.927 & $0.0250\pm0.0085$ & $ 1.29\pm 0.44$ \nr 6.104 & 7.040 & 0.849 & 1.015 & 0.910 & $0.0433\pm0.0108$ & $ 2.26\pm 0.57$ \nr 6.055 & 6.983 & 0.846 & 0.994 & 0.894 & $0.0415\pm0.0106$ & $ 2.19\pm 0.56$ \nr 6.005 & 6.926 & 0.843 & 0.973 & 0.877 & $0.0679\pm0.0137$ & $ 3.62\pm 0.73$ \nr 5.956 & 6.869 & 0.840 & 0.952 & 0.862 & $0.0689\pm0.0145$ & $ 3.70\pm 0.78$ \nr 5.906 & 6.812 & 0.836 & 0.932 & 0.846 & $0.0728\pm0.0166$ & $ 3.95\pm 0.90$ \nr 5.857 & 6.755 & 0.833 & 0.913 & 0.831 & $ 0.100\pm 0.023$ & $ 5.49\pm 1.28$ \nr 5.807 & 6.698 & 0.830 & 0.894 & 0.816 & $ 0.142\pm 0.044$ & $ 7.82\pm 2.44$ \endtable \hrule \vskip 3pt \hrule \end