feat(posts): remove folds

posts/economics/models-of-production.html

@@ -53,9 +53,9 @@
             in Intermediate Macroeconomics (ECON 3020) during the Spring
             semester of 2024 at the University of Virginia.
           </p>
-          <div class="fold"><h2>solow</h2></div>
+          <h2>solow</h2>
           <div>
-            <div class="fold"><h3>introduction</h3></div>
+            <h3>introduction</h3>
             <div>
               <p>
                 The Solow Model is an economic model of production that
@@ -118,9 +118,7 @@
                 </div>
               </div>
             </div>
-            <div class="fold">
-              <h3>solving the model</h3>
-            </div>
+            <h3>solving the model</h3>
             <div>
               <p>
                 Visualizing the model, namely output as a function of capital,
@@ -225,9 +223,7 @@
                 \bar{A}^\frac{1}{1-\alpha}(\frac{\bar{s}}{\bar{d}})^\frac{\alpha}{1-\alpha})\]
               </p>
             </div>
-            <div class="fold">
-              <h3>analysis</h3>
-            </div>
+            <h3>analysis</h3>
             <div>
               <p>
                 Using both mathematical intuition and manipulating the
@@ -280,9 +276,9 @@
               </p>
             </div>
           </div>
-          <div class="fold"><h2>romer</h2></div>
+          <h2>romer</h2>
           <div>
-            <div class="fold"><h3>introduction</h3></div>
+            <h3>introduction</h3>
             <div>
               <p>How, then, can we address these shortcomings?</p>
               <p>
@@ -454,7 +450,7 @@
                 </table>
               </div>
             </div>
-            <div class="fold"><h3>solving the model</h3></div>
+            <h3>solving the model</h3>
             <div>
               <p>
                 To find the output in terms of exogenous parameters, first note
@@ -474,7 +470,7 @@
                 L_{yt}=A_0(1+\bar{z}\bar{l}\bar{L})^t(1-\bar{l})\bar{L}\]
               </p>
             </div>
-            <div class="fold"><h3>analysis</h3></div>
+            <h3>analysis</h3>
             <div>
               <p>
                 We see the Romer model exhibits long-run growth because ideas
@@ -550,9 +546,9 @@
               </p>
             </div>
           </div>
-          <div class="fold"><h2>romer-solow</h2></div>
+          <h2>romer-solow</h2>
           <div>
-            <div class="fold"><h3>introduction</h3></div>
+            <h3>introduction</h3>
             <div>
               <p>
                 While the Romer Model provides an avenue for long-run economic
@@ -601,7 +597,7 @@
                 </div>
               </div>
             </div>
-            <div class="fold"><h3>solving the model</h3></div>
+            <h3>solving the model</h3>
             <div>
               <p>
                 Based on the the motivations for creating this model, it is more
@@ -657,7 +653,7 @@
                 Y_t^*={(A_0(1+\bar{z}\bar{l}\bar{L})^t})^\frac{1}{1-\alpha}(\frac{\bar{s}}{\frac{\bar{z}\bar{l}\bar{L}}{1-\alpha}+\bar{d}})^\frac{\alpha}{1-\alpha}(1-\bar{l})\bar{L}\]
               </p>
             </div>
-            <div class="fold"><h3>analysis</h3></div>
+            <h3>analysis</h3>
             <div>
               <p>
                 First looking at the growth rate of output,