update week 1

Author: mhjensen

doc/pub/week1/html/week1-bs.html

@@ -281,7 +281,7 @@ <h1>Quantum Computing and Quantum Machine Learning</h1>
 </center>
 <!-- institution -->
 <center>
-<b>Department of Physics and Center for Computing in Science Education, University of Oslo, Norway</b>
+<b>Department of Physics, University of Oslo, Norway</b>
 </center>
 <br>
 <center>
@@ -318,12 +318,12 @@ <h2 id="practicalities" class="anchor">Practicalities </h2>
 <li> Weekly lectures with weekly exercise sessions and assignments. The assignments are meant as background for the twp projects</li>
 <li> We plan to work on two projects which will define the content of the course, the format can be agreed upon by the participants but the following topics are those we wish to focus on:</li>
 <ul>
- <li> First project: Quantum computing and simulation of quantum mechanical model systems</li>
- <li> Second project: Continuation of the first topic to more realistic systems using adaptive VQE</li>
+ <li> First project: Quantum computing and simulation of quantum mechanical systems</li>
+ <li> Second project: Continuation of the first topic with  more realistic systems and using adaptive VQE</li>
  <li> Second project: Applications and implementations of quantum machine learning algorithms</li>
  <li> Second project: studies of entanglement and physical realization of quantum gates and circuits</li>
 </ul>
-<li> Two project which count \( 50\% \) each for the final grade</li>
+<li> Two projects which count \( 50\% \) each for the final grade</li>
 <li> Deadline first project March 21</li>
 <li> Deadline second project June 1</li>
 <li> All info at the GitHub address <a href="https://github.com/CompPhysics/QuantumComputingMachineLearning" target="_self"><tt>https://github.com/CompPhysics/QuantumComputingMachineLearning</tt></a></li>

doc/pub/week1/html/week1-reveal.html

@@ -177,7 +177,7 @@ <h1 style="text-align: center;">Quantum Computing and Quantum Machine Learning</
 </center>
 <!-- institution -->
 <center>
-<b>Department of Physics and Center for Computing in Science Education, University of Oslo, Norway</b>
+<b>Department of Physics, University of Oslo, Norway</b>
 </center>
 <br>
 <center>
@@ -218,13 +218,13 @@ <h2 id="practicalities">Practicalities </h2>
 <p><li> Weekly lectures with weekly exercise sessions and assignments. The assignments are meant as background for the twp projects</li>
 <p><li> We plan to work on two projects which will define the content of the course, the format can be agreed upon by the participants but the following topics are those we wish to focus on:</li>
 <ul>
- <p><li> First project: Quantum computing and simulation of quantum mechanical model systems</li>
- <p><li> Second project: Continuation of the first topic to more realistic systems using adaptive VQE</li>
+ <p><li> First project: Quantum computing and simulation of quantum mechanical systems</li>
+ <p><li> Second project: Continuation of the first topic with  more realistic systems and using adaptive VQE</li>
  <p><li> Second project: Applications and implementations of quantum machine learning algorithms</li>
  <p><li> Second project: studies of entanglement and physical realization of quantum gates and circuits</li>
 </ul>
 <p>
-<p><li> Two project which count \( 50\% \) each for the final grade</li>
+<p><li> Two projects which count \( 50\% \) each for the final grade</li>
 <p><li> Deadline first project March 21</li>
 <p><li> Deadline second project June 1</li>
 <p><li> All info at the GitHub address <a href="https://github.com/CompPhysics/QuantumComputingMachineLearning" target="_blank"><tt>https://github.com/CompPhysics/QuantumComputingMachineLearning</tt></a></li>

doc/pub/week1/html/week1-solarized.html

@@ -224,7 +224,7 @@ <h1>Quantum Computing and Quantum Machine Learning</h1>
 </center>
 <!-- institution -->
 <center>
-<b>Department of Physics and Center for Computing in Science Education, University of Oslo, Norway</b>
+<b>Department of Physics, University of Oslo, Norway</b>
 </center>
 <br>
 <center>
@@ -257,12 +257,12 @@ <h2 id="practicalities">Practicalities </h2>
 <li> Weekly lectures with weekly exercise sessions and assignments. The assignments are meant as background for the twp projects</li>
 <li> We plan to work on two projects which will define the content of the course, the format can be agreed upon by the participants but the following topics are those we wish to focus on:</li>
 <ul>
- <li> First project: Quantum computing and simulation of quantum mechanical model systems</li>
- <li> Second project: Continuation of the first topic to more realistic systems using adaptive VQE</li>
+ <li> First project: Quantum computing and simulation of quantum mechanical systems</li>
+ <li> Second project: Continuation of the first topic with  more realistic systems and using adaptive VQE</li>
  <li> Second project: Applications and implementations of quantum machine learning algorithms</li>
  <li> Second project: studies of entanglement and physical realization of quantum gates and circuits</li>
 </ul>
-<li> Two project which count \( 50\% \) each for the final grade</li>
+<li> Two projects which count \( 50\% \) each for the final grade</li>
 <li> Deadline first project March 21</li>
 <li> Deadline second project June 1</li>
 <li> All info at the GitHub address <a href="https://github.com/CompPhysics/QuantumComputingMachineLearning" target="_blank"><tt>https://github.com/CompPhysics/QuantumComputingMachineLearning</tt></a></li>

doc/pub/week1/html/week1.html

@@ -301,7 +301,7 @@ <h1>Quantum Computing and Quantum Machine Learning</h1>
 </center>
 <!-- institution -->
 <center>
-<b>Department of Physics and Center for Computing in Science Education, University of Oslo, Norway</b>
+<b>Department of Physics, University of Oslo, Norway</b>
 </center>
 <br>
 <center>
@@ -334,12 +334,12 @@ <h2 id="practicalities">Practicalities </h2>
 <li> Weekly lectures with weekly exercise sessions and assignments. The assignments are meant as background for the twp projects</li>
 <li> We plan to work on two projects which will define the content of the course, the format can be agreed upon by the participants but the following topics are those we wish to focus on:</li>
 <ul>
- <li> First project: Quantum computing and simulation of quantum mechanical model systems</li>
- <li> Second project: Continuation of the first topic to more realistic systems using adaptive VQE</li>
+ <li> First project: Quantum computing and simulation of quantum mechanical systems</li>
+ <li> Second project: Continuation of the first topic with  more realistic systems and using adaptive VQE</li>
  <li> Second project: Applications and implementations of quantum machine learning algorithms</li>
  <li> Second project: studies of entanglement and physical realization of quantum gates and circuits</li>
 </ul>
-<li> Two project which count \( 50\% \) each for the final grade</li>
+<li> Two projects which count \( 50\% \) each for the final grade</li>
 <li> Deadline first project March 21</li>
 <li> Deadline second project June 1</li>
 <li> All info at the GitHub address <a href="https://github.com/CompPhysics/QuantumComputingMachineLearning" target="_blank"><tt>https://github.com/CompPhysics/QuantumComputingMachineLearning</tt></a></li>