Final few typos cleared up

dev-docs/source/Testing/IndirectInelastic/IndirectInelasticAcceptanceTests.rst

@@ -18,15 +18,15 @@ Data reduction
 
 --------------
 
-#.  Open ``Interfaces`` > ``Indirect`` > ``Data reduction``
-#.  Make sure ``Instrument`` is set to ``IRIS``
-#.  Go to the ``ISIS calibration``
-#.  Enter ``Run number`` 26173
-#.  Click ``Run``
-#.  This should generate a workspace with ``_calib`` at the end, delete this workspace
-#.  Change the ``Scale by factor`` value to 0.5
-#.  Click ``Run``
-#.  This should generate a workspace with ``_calib`` at the end
+#. Open ``Interfaces`` > ``Indirect`` > ``Data reduction``
+#. Make sure ``Instrument`` is set to ``IRIS``
+#. Go to the ``ISIS calibration``
+#. Enter ``Run number`` 26173
+#. Click ``Run``
+#. This should generate a workspace with ``_calib`` at the end, delete this workspace
+#. Change the ``Scale by factor`` value to 0.5
+#. Click ``Run``
+#. This should generate a workspace with ``_calib`` at the end
 #. Check the ``Create RES`` box
 #. Click ``Run``
 #. This should generate a workspace with ``_res`` at the end
@@ -42,15 +42,15 @@ Data reduction
 
 --------------
 
-#.  Open ``Interfaces`` > ``Indirect`` > ``Data reduction``
-#.  Make sure ``Instrument`` is set to ``IRIS``
-#.  Check the ``Sum spectra`` box
-#.  In the ``Run files`` box enter ``26184-26185``
-#.  Click ``Run``
-#.  Check the ``Use Calib File`` box
-#.  Change ``File`` to ``Workspace`` and choose the ``_calib`` workspace previously created (From the previous test)
-#.  Click ``Run``
-#.  In the main GUI right-click on the ``iris26184_multi_graphite002_red`` workspace
+#. Open ``Interfaces`` > ``Indirect`` > ``Data reduction``
+#. Make sure ``Instrument`` is set to ``IRIS``
+#. Check the ``Sum spectra`` box
+#. In the ``Run files`` box enter ``26184-26185``
+#. Click ``Run``
+#. Check the ``Use Calib File`` box
+#. Change ``File`` to ``Workspace`` and choose the ``_calib`` workspace previously created (From the previous test)
+#. Click ``Run``
+#. In the main GUI right-click on the ``iris26184_multi_graphite002_red`` workspace
 #. Choose ``Plot spectrum``, note the number of spectra, should be 50
 #. Click ``Cancel``
 #. In the ``Data reduction`` GUI, change the setting ``Mode`` to Groups
@@ -84,16 +84,16 @@ Data analysis Elwin
 
 --------------
 
-#.  Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
-#.  Enter ``irs26176_graphite002_red.nxs`` in ``Input file``
-#.  Click ``Run`` - this should produce 3 new workspaces ``_elf``, ``_eq`` and ``_eq2``
-#.  Now in ``Input file`` choose browse, navigate to the ISIS-Sample data and select the two files above simultaneously, by using shift key
-#.  Change the integration range from -0.2 to 0.2
-#.  Click ``Run``
-#.  This should result in three new workspaces again, this time with file ranges as their name
-#.  In the main GUI right-click on ``irs26174-26176_graphite002_red_elwin_eq2`` and choose ``Plot Spectrum``, choose ``Plot All``
-#.  This should plot two lines of :math:`A^{-2}` vs :math:`Q`
-#.  Right-click on the ``irs26176_graphite002_elwin_eq`` workspace and ``Save Nexus``; save to a location of your choice; you will use this file in the next test
+#. Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
+#. Enter ``irs26176_graphite002_red.nxs`` in ``Input file``
+#. Click ``Run`` - this should produce 3 new workspaces ``_elf``, ``_eq`` and ``_eq2``
+#. Now in ``Input file`` choose browse, navigate to the ISIS-Sample data and select the two files above simultaneously, by using shift key
+#. Change the integration range from -0.2 to 0.2
+#. Click ``Run``
+#. This should result in three new workspaces again, this time with file ranges as their name
+#. In the main GUI right-click on ``irs26174-26176_graphite002_red_elwin_eq2`` and choose ``Plot Spectrum``, choose ``Plot All``
+#. This should plot two lines of :math:`A^{-2}` vs :math:`Q`
+#. Right-click on the ``irs26176_graphite002_elwin_eq`` workspace and ``Save Nexus``; save to a location of your choice; you will use this file in the next test
 
 Data analysis MSD
 -----------------
@@ -106,16 +106,16 @@ Data analysis MSD
 
 --------------
 
-#.  Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
-#.  Go to the ``MSD fit`` tab
-#.  Load the file that you saved in the previous test
-#.  Set ``Fit type`` to Gaussian
-#.  Click ``Run``
-#.  This should produce a plot of the fitted function in the interface
-#.  Change ``End X`` to 1.0
-#.  Click ``Run``
-#.  Repeat the previous steps with ``Peters`` and ``Yi`` functions
-#.  Try run fits using the different ``Minimizer`` options (except FABDA), each time change the ``End X`` value either + or - 0.1
+#. Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
+#. Go to the ``MSD fit`` tab
+#. Load the file that you saved in the previous test
+#. Set ``Fit type`` to Gaussian
+#. Click ``Run``
+#. This should produce a plot of the fitted function in the interface
+#. Change ``End X`` to 1.0
+#. Click ``Run``
+#. Repeat the previous steps with ``Peters`` and ``Yi`` functions
+#. Try run fits using the different ``Minimizer`` options (except FABADA), each time change the ``End X`` value either + or - 0.1
 
 Data analysis Conv Fit
 ----------------------
@@ -128,26 +128,26 @@ Data analysis Conv Fit
 
 --------------
 
-#.  Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
-#.  Go to the ``Conv Fit`` tab
-#.  Load the ``irs26176_graphite002_red.nxs`` file from the sample data
-#.  Load the resolution file ``irs26173_graphite002_res.nxs`` from the sample data
-#.  Set ``Fit spectra`` to 0 - 5
-#.  Set ``Fit type`` to Two Lorentzians
-#.  Set ``Max iterations`` to 400
-#.  Click ``Run``
-#.  Three new workspaces should be created in the main GUI - ``Parameters``, ``Result`` and ``Workspaces``
-#.  In the ``Fit`` tab, change ``Fit spectra`` to String and enter 3
-#.  Click ``Run`` the plot should update and new workspaces are created in the main Mantid GUI
-#.  Set ``Fit spectra`` to String 3
-#.  Click ``Run``; the plot should update and new workspaces are created in the main Mantid GUI
-#.  Try the various ``Plot`` options in the interface
+#. Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
+#. Go to the ``Conv Fit`` tab
+#. Load the ``irs26176_graphite002_red.nxs`` file from the sample data
+#. Load the resolution file ``irs26173_graphite002_res.nxs`` from the sample data
+#. Set ``Fit spectra`` to 0 - 5
+#. Set ``Fit type`` to Two Lorentzians
+#. Set ``Max iterations`` to 400
+#. Click ``Run``
+#. Three new workspaces should be created in the main GUI - ``Parameters``, ``Result`` and ``Workspaces``
+#. In the ``Fit`` tab, change ``Fit spectra`` to String and enter 3
+#. Click ``Run`` the plot should update and new workspaces are created in the main Mantid GUI
+#. Set ``Fit spectra`` to String 3
+#. Click ``Run``; the plot should update and new workspaces are created in the main Mantid GUI
+#. Try the various ``Plot`` options in the interface
 
    (a)  ``Plot Output`` set to All and click plot - should give 4 separate plots
    (b)  ``Plot Current Preview`` - should result in a plot with three datasets
    (c)  Enable the ``Plot Guess`` checkbox - should not change anything, but should not break anything either!
 
-#.  Change the ``Fit type`` to different functions and run fits
+#. Change the ``Fit type`` to different functions and run fits
 
 Data analysis I(Q, T)
 ----------------------
@@ -160,12 +160,12 @@ Data analysis I(Q, T)
 
 --------------
 
-#.  Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
-#.  Go to the ``I(Q, T)`` tab
-#.  Load the ``irs26176_graphite002_red.nxs`` file from the sample data
-#.  Load the resolution file ``irs26173_graphite002_res.nxs`` from the sample data 
-#.  Click ``Run``
-#.  A new workspace with the suffix ``_iqt`` should appear in the main GUI, it should be a 87 x 51 table. **NB** keep this workspace for the next test
+#. Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
+#. Go to the ``I(Q, T)`` tab
+#. Load the ``irs26176_graphite002_red.nxs`` file from the sample data
+#. Load the resolution file ``irs26173_graphite002_res.nxs`` from the sample data 
+#. Click ``Run``
+#. A new workspace with the suffix ``_iqt`` should appear in the main GUI, it should be a 87 x 51 table. **NB** keep this workspace for the next test
 #. Click ``Plot Current View`` this should plot the same data as the preview window
 #. Click ``Plot Result`` this should give a plot with the title *irs26176_graphite002_iqt*   
 
@@ -180,15 +180,15 @@ Data analysis I(Q, T) Fit
 
 --------------
 
-#.  Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
-#.  Go to the ``I(Q, T) Fit`` tab
-#.  Load the ``_iqt`` workspace from the previous test
-#.  Set ``Exponential`` to 1
-#.  Set ``EndX`` to 0.14
-#.  Click ``Run``
-#.  This should produce a fit and a difference plot in the window
-#.  Click ``Plot current preview`` this should open a plot with three datasets plotted
-#.  Change ``Range`` to 0 - 10
+#. Go to ``Interfaces`` > ``Indirect`` > ``Data Analysis``
+#. Go to the ``I(Q, T) Fit`` tab
+#. Load the ``_iqt`` workspace from the previous test
+#. Set ``Exponential`` to 1
+#. Set ``EndX`` to 0.14
+#. Click ``Run``
+#. This should produce a fit and a difference plot in the window
+#. Click ``Plot current preview`` this should open a plot with three datasets plotted
+#. Change ``Range`` to 0 - 10
 #. Click ``Run``
 #. Select Lifetime from the ``Plot Output`` drop-down
 #. Click ``Plot Result`` this should open a new plot with the lifetimes plotted