6701 Mt Vernon Court, Arlington, TX 76017
- 6 beds |
- 4 baths |
- 3,068 sqft
Single-Family Home
Built in 1987
8,843sqft lot
2 car garage
$196/sqft
Listed 2 days ago
Property Description
Welcome to your dream home! This beautifully updated two-story residence combines modern comfort with timeless elegance, offering 6 spacious rooms and 4 full bathrooms—perfect for large families, entertaining, or working from home. Step inside to find a bright, open-concept layout featuring updated flooring, designer lighting, and fresh paint throughout. The gourmet kitchen boasts quartz countertops, stainless steel appliances, and custom cabinetry, flowing seamlessly into the dining and living areas with poolside views. The first floor includes a guest suite or home office, a full bath, and multiple living spaces, and the primary suite is a true retreat with a spa-inspired ensuite bath, separate shower, dual vanities, soaking tub, and walk-in closet. Additional bedrooms are generously sized with ample closet space. Enjoy endless summers in your private backyard oasis, complete with a sparkling in-ground pool, sunroom, and lush landscaping—ideal for relaxing or entertaining guests. Additional features include: Attached 2-car garage Smart home technology Located in a desirable neighborhood near top-rated schools, shopping, and parks
- Listing Status:
- Active
- Data Last Updated:
- July 12, 2026 at 7:17AM
- Listing Office:
- Mark D. Hixson : 817-909-2871
- Listing Agent:
- Kenniah Hixson :
- MLS ID:
- 21326435

- Style: Detached
- Pool: FencedHeatedIn GroundOutdoor PoolPoolPool/Spa Combo
- Parking: Door-MultiGarage Faces Rear
- General: 2
- Originating MLS: NTR
- School District: Kennedale ISD
- County: Tarrant
- Zoning: GEORGETOWN ADDITION-ARLINGTON BLOCK 2 LOT 1705777739
- Utilities: Sewer AvailableWater AvailableCable Available
- Water: Public
- Sewer: Public Sewer
- Source: NTR
This listing courtesy of Kenniah Hixson , Mark D. Hixson
Monthly Payment
- Principal & Interest $
- Property Taxes $
- Home Insurance $
- VA Funding Fee $






