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Main Photo: 34 Back Lane in Terence Bay: 40-Timberlea, Prospect, St. Margaret`S Bay Vacant Land for sale (Halifax-Dartmouth)  : MLS®# 201902455
Status:
Active
Prop. Type:
Vacant Land
MLS® Num:
201902455
Here is a great building lot in Terence Bay with 14,400 Square Feet. Driveway is in place, with a great location and with potential outstanding ocean views from the second floor of your new home. The local elementary school is only 900 meters away. Priced at $25,000.
Prospect Road to Terence Bay Road. Left on Sandy Cove Road and left on Back Lane
Listing Sub-Area:
40-Timberlea, Prospect, St. Margaret`S Bay
Property Type:
Vacant Land
Land Type:
Vacant Lot(s)
Title To Land:
Freehold
Prop Size:
Under 0.5 Acres
Lot Details:
14,400 Sq Ft
Zoning:
MU-1
Water Supply:
None
Sewer:
None
Utilities:
Cable, Electricity, High Speed Internet, Telephone
Driveway:
Gravel
Not Landscaped, Softwood Bush
No
View: Ocean
Possession Info:
Negotiable
Elementary School:
Atlantic View Elementary School
Middle School:
Brookside Junior High School
High School:
Halifax West High School
Listed Date:
Feb 07, 2019
Days on Mkt:
13
  • Photo 1: 34 Back Lane in Terence Bay: 40-Timberlea, Prospect, St. Margaret`S Bay Vacant Land for sale (Halifax-Dartmouth)  : MLS®# 201902455
    Photo 1 of 3
  • Photo 2: 34 Back Lane in Terence Bay: 40-Timberlea, Prospect, St. Margaret`S Bay Vacant Land for sale (Halifax-Dartmouth)  : MLS®# 201902455
    Photo 2 of 3
  • Photo 3: 34 Back Lane in Terence Bay: 40-Timberlea, Prospect, St. Margaret`S Bay Vacant Land for sale (Halifax-Dartmouth)  : MLS®# 201902455
    Photo 3 of 3
Larger map options:
Listing information last updated on February 14, 2019 at 03:23 PM (UTC)
Area Statistics
Listings on market:
176
Avg list price:
$79,900
Min list price:
$19,500
Max list price:
$1,995,000
Avg days on market:
184
Min days on market:
7
Max days on market:
2,385
These statistics are generated based on the current listing's property type and located in 40-Timberlea, Prospect, St. Margaret`S Bay. Average values are derived using median calculations.
Ron Maher