Now we'll add precise dimensions to verify our wall placements match the architectural specifications. First, let's reference our floor plan to confirm the required measurements. In the closet area, we need three critical dimensions: 11' 6", 2', and 11' 6".
Notice how these dimensions are measured from the outside face of the exterior wall to the interior faces of the bedroom walls, with that crucial 2' clearance between them. The center wall must be positioned exactly 4' 5 1/2" from the reference face. Precision at this stage prevents costly revisions later in the project.
I'll start by drawing our first dimension string. With the overall 25' measurement confirmed, I'll dimension to this wall face, keeping the dimension string active for efficiency. Using the Tab key to cycle through face options ensures we're selecting the correct reference points—a technique that becomes invaluable on complex projects.
Setting each point methodically, we'll extend the dimension string to the end wall and click in white space to finalize the placement. Cross-referencing with our plan, we should see our target dimensions: 11' 6", 2', and 11' 6".
However, our initial results show 11' 1", 3' 4", and 10' 7"—clearly off target. This discrepancy demonstrates why dimensional verification is non-negotiable. When adjusting dimension values, wall selection becomes critical. Selecting the wrong wall affects not just the local dimension but potentially the entire 25' overall measurement due to parametric relationships.
By selecting the correct interior wall, I can input the precise 11' 6" dimension and press Enter. For the 2' spacing, I need to select the adjacent wall to avoid inadvertently moving the wrong element. This wall-specific approach ensures our modifications affect only the intended geometry.
With careful selection and input, we achieve our target dimensions: 11' 6", 2', 11' 6". Next, we'll dimension the horizontal wall segment from the interior face of the exterior wall to the interior face of our partition. Using the DI shortcut for aligned dimensions streamlines this process significantly.
The specification calls for 4' 5 1/2". Input this as "4 space 5 space 1/2" to achieve the fractional dimension. Professional CAD work demands this level of precision—approximate dimensions lead to field conflicts and change orders.
Moving to the bathroom area, our plan indicates two key dimensions: 5' 11" from outside face to outside face of the 6' wall, and a 6' 2" clear dimension measured to the interior face. These measurements establish the bathroom's functional layout and ensure code compliance for minimum clearances.
I'll establish these dimensions using the same Tab-cycling technique for face selection. The Aligned Dimensions tool remains our primary method—accessible via Annotate > Aligned Dimension for those preferring ribbon navigation, though the DI keyboard shortcut proves indispensable for production work.
Our initial results require adjustment to match specifications. I'll modify the first dimension to 6' 2" and the second to the required 5' 11", measured from outside face to outside face as specified. These adjustments ensure our bathroom layout meets both functional requirements and building code standards.
To verify our center wall placement, I'll add a confirmation dimension. The 10' measurement from outside face to center to outside face matches our plan exactly, confirming proper wall relationships. This verification step prevents downstream issues during construction documentation.
Finally, we need that 1' 4" extension dimension. I'll draw from the wall face to the endpoint—when the software captures this relationship automatically, it saves significant time. For demonstration purposes, I'll select the wall and modify the dimension to 1' 4", which parametrically adjusts the wall length.
With all interior wall dimensions properly established and verified against our architectural plans, this represents a significant project milestone. I'll save our progress before proceeding to the next phase of our model development.