13035 Avery Ridge Lane, Tomball, TX 77377
- 3 beds |
- 2 baths |
- 1,586 sqft
Single-Family Home
Built in 2009
6,329sqft lot
2 car garage
$186/sqft
Listed 1 day ago
Property Description
Located in the tranquil, well-established neighborhood of Villages at Northpointe, this charming property boasts a spacious & inviting floor plan offering 3 bedrooms, 2 baths & a 2 car garage. Move in ready! Come on in and see the new luxury vinyl plank floors offering a clean, modern feel & easy maintenance. The 3 bedrms have brand new carpet & the interior of the home was just painted The backyard is fully fenced & is approx. 2 yrs new providing a safe place for pets & kids. Split bedrm plan, breakfast rm & formal dining rm add to the list of amenities that makes this home the perfect place to create lasting memories. Enjoy the peaceful setting at home or the community pool, playground & tennis courts. Your primary retreat features a luxury bath w/separate shower, tub, dual sinks & generous closet space. The kitchen features gas range & great cabinet & counter space! Refrigerator, W/D included. Conveniently located in close proximity to 249, shopping, dining & major roadways.
- Listing Status:
- Active
- Date Added:
- July 16, 2026
- Data Last Updated:
- July 17, 2026 at 5:06AM
- Listing Office:
- Keller Williams Advantage Realty : 936-525-3200
- Listing Agent:
- Theresa Scheib : 1+936-537-6467
- MLS ID:
- 96251513
- Style: Traditional
- Parking: AttachedGarage Door Opener
- Roofing: Composition
- General: BrickWood Siding1Slab
- Road/Access: Concrete
- HOA Amenities: PlaygroundPoolTennis Court(s)1090.0Annually
- Originating MLS: Houston Association of Realtors
- School District: 53 - Tomball
- County: Harris
- Zoning: LT 9 BLK 3 VILLAGES OF NORTHPOINTE WEST SEC 41271980030009
- Fencing: Back Yard
- Water: Water District
- Source: Houston Association of Realtors
This listing courtesy of Theresa Scheib , Keller Williams Advantage Realty
Monthly Payment
- Principal & Interest $
- Property Taxes $
- Home Insurance $
- VA Funding Fee $






