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authorDarrell Anderson <darrella@hushmail.com>2014-01-21 22:06:48 -0600
committerTimothy Pearson <kb9vqf@pearsoncomputing.net>2014-01-21 22:06:48 -0600
commit0b8ca6637be94f7814cafa7d01ad4699672ff336 (patch)
treed2b55b28893be8b047b4e60514f4a7f0713e0d70 /tde-i18n-en_GB/docs/tdeedu/kstars/altvstime.docbook
parenta1670b07bc16b0decb3e85ee17ae64109cb182c1 (diff)
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<sect1 id="tool-altvstime">
-<title
->Altitude vs. Time Tool</title>
-<indexterm
-><primary
->Tools</primary>
-<secondary
->Altitude vs. Time Tool</secondary>
+<title>Altitude vs. Time Tool</title>
+<indexterm><primary>Tools</primary>
+<secondary>Altitude vs. Time Tool</secondary>
</indexterm>
<screenshot>
-<screeninfo
->The Altitude vs. Time Tool </screeninfo>
+<screeninfo>The Altitude vs. Time Tool </screeninfo>
<mediaobject>
<imageobject>
<imagedata fileref="altvstime.png" format="PNG"/>
</imageobject>
<textobject>
- <phrase
->Altitude vs. Time Plotter</phrase>
+ <phrase>Altitude vs. Time Plotter</phrase>
</textobject>
</mediaobject>
</screenshot>
-<para
->This tool plots the altitude of any objects as a function of time, for any date and location on Earth. The top section is a graphical plot of altitude angle on the vertical axis, and time on the horizontal axis. The time is shown both as standard local time along the bottom, and <link linkend="ai-sidereal"
->sidereal time</link
-> along the top. The bottom half of the graph is shaded green to indicate that points in this region are below the horizon. </para>
-<para
->There are a few ways to add curves to the plot. The simplest way to add the curve of an existing object is to simply type its name in the <guilabel
->Name</guilabel
-> input field, and press Enter, or the <guibutton
->Plot</guibutton
-> button. If the text you enter is found in the object database, the object's curve is added to the graph. You can also press the <guibutton
->Browse</guibutton
-> button to open the <link linkend="findobjects"
->Find Object Window</link
-> to select an object from the list of known objects. If you want to add a point that does not exist in the object database, simply enter a name for the point, and then fill in the coordinates in the <guilabel
->RA</guilabel
-> and <guilabel
->Dec</guilabel
-> input fields. Then press the <guibutton
->Plot</guibutton
-> button to add the curve for your custom object to the plot (note that you have to pick a name that does not already exist in the object database for this to work). </para>
-<para
->When you add an object to the plot, its altitude vs. time curve is plotted with a thick white line, and its name is added to the listbox at the lower right. Any objects that were already present are plotted with a thinner red curve. You can choose which object is plotted with the thick white curve by highlighting its name in the listbox. </para>
-<para
->These curves show the objects' Altitude (angle above the <link linkend="ai-horizon"
->horizon</link
->) as a function of time. When a curve passes from the lower half to the upper half, the object has risen; when it falls back to the lower half, it has set. For example, in the screenshot, the minor planet <firstterm
->Quaoar</firstterm
-> is rising at around 15:30 local time, and is setting at about 00:30. </para>
-<para
->The Altitude of an object depends on both where you are on Earth, and on the Date. By default, the Tool adopts the Location and Date from the current KStars settings. You can change these parameters in the <guilabel
->Date &amp; Location</guilabel
-> Tab. To change the Location, you can press the <guibutton
->Choose City...</guibutton
-> button to open the <link linkend="setgeo"
->Set Geographic Location</link
-> Window, or enter Longitude and Latitude values manually in the input fields, and press the <guibutton
->Update</guibutton
-> button. To change the Date, use the <guilabel
->Date</guilabel
-> picker widget, then press <guibutton
->Update</guibutton
->. Note that any curves you had already plotted will be automatically updated when you change the Date and/or Location. </para>
+<para>This tool plots the altitude of any objects as a function of time, for any date and location on Earth. The top section is a graphical plot of altitude angle on the vertical axis, and time on the horizontal axis. The time is shown both as standard local time along the bottom, and <link linkend="ai-sidereal">sidereal time</link> along the top. The bottom half of the graph is shaded green to indicate that points in this region are below the horizon. </para>
+<para>There are a few ways to add curves to the plot. The simplest way to add the curve of an existing object is to simply type its name in the <guilabel>Name</guilabel> input field, and press Enter, or the <guibutton>Plot</guibutton> button. If the text you enter is found in the object database, the object's curve is added to the graph. You can also press the <guibutton>Browse</guibutton> button to open the <link linkend="findobjects">Find Object Window</link> to select an object from the list of known objects. If you want to add a point that does not exist in the object database, simply enter a name for the point, and then fill in the coordinates in the <guilabel>RA</guilabel> and <guilabel>Dec</guilabel> input fields. Then press the <guibutton>Plot</guibutton> button to add the curve for your custom object to the plot (note that you have to pick a name that does not already exist in the object database for this to work). </para>
+<para>When you add an object to the plot, its altitude vs. time curve is plotted with a thick white line, and its name is added to the listbox at the lower right. Any objects that were already present are plotted with a thinner red curve. You can choose which object is plotted with the thick white curve by highlighting its name in the listbox. </para>
+<para>These curves show the objects' Altitude (angle above the <link linkend="ai-horizon">horizon</link>) as a function of time. When a curve passes from the lower half to the upper half, the object has risen; when it falls back to the lower half, it has set. For example, in the screenshot, the minor planet <firstterm>Quaoar</firstterm> is rising at around 15:30 local time, and is setting at about 00:30. </para>
+<para>The Altitude of an object depends on both where you are on Earth, and on the Date. By default, the Tool adopts the Location and Date from the current KStars settings. You can change these parameters in the <guilabel>Date &amp; Location</guilabel> Tab. To change the Location, you can press the <guibutton>Choose City...</guibutton> button to open the <link linkend="setgeo">Set Geographic Location</link> Window, or enter Longitude and Latitude values manually in the input fields, and press the <guibutton>Update</guibutton> button. To change the Date, use the <guilabel>Date</guilabel> picker widget, then press <guibutton>Update</guibutton>. Note that any curves you had already plotted will be automatically updated when you change the Date and/or Location. </para>
<tip>
-<para
->Exercise:</para>
-<para
->Plot the Sun's Altitude curve. Make sure the geographic location is not near the equator. Change the Date to some time in June, and then again to sometime in January. You can see easily why we have seasons; in the winter, the Sun is above the horizon for less time (the days are shorter), and its altitude is never very high. </para>
+<para>Exercise:</para>
+<para>Plot the Sun's Altitude curve. Make sure the geographic location is not near the equator. Change the Date to some time in June, and then again to sometime in January. You can see easily why we have seasons; in the winter, the Sun is above the horizon for less time (the days are shorter), and its altitude is never very high. </para>
</tip>