This first assignment focuses on customizing our curtain wall system, and we'll tackle everything from the 3D view. This approach offers a distinct advantage: you can simultaneously visualize both sides of your curtain wall while making modifications, providing the most intuitive access to all customization options. Navigate to your Default 3D view to begin—immediately, you'll notice our current curtain wall configuration needs substantial refinement to meet professional standards.

Two critical issues demand immediate attention. First, we're dealing with an oversized glass panel that significantly exceeds practical dimensions for real-world construction. In professional practice, panels of this scale present structural, thermal, and cost challenges that make them impractical for most commercial applications. We'll need to subdivide this element strategically. Second, notice how the ceiling terminates abruptly at this location, creating an awkward condition that exposes either the interstitial space above or requires a custom soffit detail. This inconsistency disrupts the building's visual continuity and complicates construction coordination between trades.

We'll address both issues systematically. Following the same methodology from our previous curtain wall modeling exercises, we'll establish the structural framework first, then layer in our customizations. This sequence ensures dimensional accuracy and prevents the modeling conflicts that often plague less experienced practitioners.

Our first step involves extending the existing curtain grid beyond its current limited application at the door header. Since the East curtain wall already has a grid system in place, we can leverage the 'Add/Remove Segments' function to extend these two segments across the entire span. This extension allows us to install a horizontal curtain grid that supports a spandrel panel—effectively concealing the interstitial space while breaking the elevation into more visually balanced proportions. Position your cursor in the blank area and move it vertically until the system highlights the curtain grid, indicating it's ready for selection.

Once you've selected the grid with a left-click, the 'Modify Curtain Wall Grids' contextual tab becomes active, revealing the 'Add/Remove Segments' tool. This versatile command handles both operations seamlessly. Click to add segments on both sides of your target area, effectively extending the grid system. Press Escape when complete to exit the command. Here's a critical point that trips up many practitioners: resist the temptation to create a second curtain grid at this location. Overlapping grids generate zero-dimension glass panels that corrupt your schedules and prevent proper mullion installation—a mistake that compounds throughout the design process.

Next, we'll add a perpendicular grid to establish our horizontal framework. From the Architecture tab, select 'Curtain Grid' and hover along the target area. The system will highlight alignment opportunities with existing grids, ensuring continuity across adjacent curtain wall systems. This coordination becomes crucial in complex facades where multiple curtain wall families intersect.

Now we'll address that oversized glass panel by introducing a vertical subdivision. For experienced users, the 'Create Similar' command (keyboard shortcut 'CS') offers the most efficient workflow. Select any existing curtain grid, type CS, and the curtain grid command activates instantly. This approach exemplifies a fundamental Revit principle: when elements already exist in your model, leverage them rather than rebuilding from scratch. Whether you're replicating walls, curtain wall mullions, or any other component, 'Create Similar' maintains consistency while accelerating your modeling pace.

As you position the new vertical grid, Revit's intelligent snapping system provides helpful guidance. Watch the status area in the bottom-left corner—when hovering over the center point, you'll see "midpoint of curtain grid." Move toward either edge, and it displays "one third of curtain grid." These dynamic references help you achieve proportional layouts without manual calculations, though experienced designers often override these suggestions based on their specific design intent.

The final step involves creating a solid panel condition at the base of our curtain wall. This detail typically houses mechanical systems, provides visual weight to ground the facade, or accommodates code-required vision glass limitations. We'll remove the lower curtain grid segments using the same 'Add/Remove Segments' tool we employed earlier. Select the vertical grid you just created, activate 'Add/Remove Segments,' then click the segments you want to eliminate.

Before proceeding with grid removal, delete any existing mullions in the target area—this prevents selection conflicts and streamlines the editing process. Take your time during this phase, as the 3D environment can make precise selection challenging. Moving too quickly often results in unintended modifications that require time-consuming corrections. Work methodically around the perimeter, removing only the grid segments that conflict with your solid panel design.

When complete, your curtain wall should feature three distinct panel zones: a solid base panel, an intermediate panel adjacent to the door, and the subdivided upper panel where we added the new grid system. This configuration balances visual interest with practical construction requirements while establishing a framework that can accommodate future design iterations or client modifications.