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A deep insight into Hancock, New Hampshire

Hancock is one of the famous towns in Hillsborough of New Hampshire of US. The population of the town was 1654 as per 2010 census made. The town is a home for Welch family farm forest. The town is also notable as census designated place and it is situated at the junction of New Hampshire routes 137 and 123.

Know about the geography of the place

As per US census bureau, the city has a total area of 81km2, out of which 78 km2 is of land and remaining 3km2 is water. Finally, the town is of 4% of the town. The town is completely drained by the river Contoocook. Nubanusit Lake is situated on the western border and Powder Mill Pond is situated in east direction. The highest point of the town is situated at a height of 610m above the sea level. Moreover, the city lies completely within Merrimack River watershed.

The Hancock town is located in the heart of Monadnock region. It is a mesmerizing vacational spot situated in the southwestern part of New Hampshire. The town came into inception in the year 1779 and most portion of the village remains the same even today. The town is well maintained and groomed regularly.

Each and every building on the main street of the town is listed on the national register of historic places. Instead of walking on the cement pathways, there are attractive and meandering pathways that lead from one house to another. Every place is situated at walkable distance from one another –the town square, the grade school, the beach and the country store.

When you step out into town and start exploring, you can take a look at the town’s original school house and local cemetery which tells about the untold tales as well as its hand carved stones.

During summer season, weekly concerts are organized at town gazebo which is situated across Vestry.

On the other hand, The Harris Center, a nature preserve is situated about 5 miles from the center of Hancock’s. Here you can come across the nature center as well as trails ranging from “easy” to “difficult”.

The Peterborough is located quite close to the south of Hancock. Today the town is a home for quaint gift shops as well as coffee shops. All the historical places of the town are open to every visitor all through the year.

Assume a very simple numerical case. The weight of the concrete wall and its line of action are very readily determined with accuracy. The base of the concrete wall has been made of the height, or 7.2 feet. The batter of the outer face is at the rate of 1 in 5, or is 3.6 feet in the total height of the wall, leaving 3.6 feet as the thickness at the top. The area of the cross-section = -} (3.6 + 7.2) 18 = 97.2 square feet. On the intersection of this line of pressure with the base is evidently at a distance from the intersection of the line of vertical pressure, equal to: That point is therefore 5.18 feet from the rear of the wall, or 2.02 feet from the toe. This point represents the center of pressure of the pressure on the subsoil. The pressure is most intense at the toe of the wall, and is there assumed to be twice as intense as the average pressure. It is also assumed that the pressure diminishes toward the rear, until, at a distance back from the center of pressure equal to twice the distance from the center of pressure to the toe, the pressure is zero. The average pressure would equal 14,640 - 6.06 = 2,415 pounds per square foot. The maximum pressure at the toe would therefore equal twice this average pressure, or 4,830 pounds per square foot, or about 34 pounds per square inch. This unit pressure is so far within that allowable for stone concrete cutting, that there is no danger of the crushing of the concrete cutting at the toe. The pressure on the subsoil, which is less than 2- tons per square foot, is less than that usually allowable on good subsoil. There is therefore but little danger that the subsoil will be crushed and that they will tip over bodily on account of the failure of the subsoil. Since the line of pressure is likewise two feet back of the toe of the wall, there is no danger that the concrete wall will tip over around its toe. The accuracy with which these calculations have been carried out should basis that this concrete cutting weighs 140 pounds per cubic foot; a section of this concrete wall one foot long will weigh 13,608 pounds. To find the line of application of the weight, we must find the center of gravity of the trapezoid, and for this purpose we may divide the trapezoid into a rectangle and a right-angled triangle. The rectangle has an area of 64.8 square feet, and its center of gravity is 18 feet from the rear face. The center of gravity of the trapezoid is then found numerically as follows: (64.8) < 1.8= 116.64 which is the distance of the center of gravity of the trapezoid from the rear face of the wall. The pressure of the earth on the rear wall, as stated above, is very uncertain; a value for it has already been computed (in the example in section 225) as 5,400 pounds. This value is probably excessive, except under the most unfavorable conditions. The point of application of the resultant of this pressure, as well as the direction of that resultant, is also uncertain, and has been the subject of much theoretical controversy. If the soil were merely a liquid which had no internal friction, there would be no uncertainty. In this case, the point of application of the pressure would be at one-third the height of the concrete wall from the base, and its direction would be perpendicular to the rear face of the wall. This is the most unfavorable condition for stability which could be assumed; and on this account, calculations are sometimes made on this basis, with the knowledge that if the concrete wall is stable under these most unfavorable conditions, it will certainly be stable no matter what the real conditions may be. On this basis we have the resultant pressure against the rear of the concrete wall as indicated by the arrow. The resultant pressure on the base of the concrete wall is therefore a line the direction of which is indicated by the diagonal of a parallelogram whose two sides are parallel to the two forces, the sides being proportional to those forces. The amount of this pressure equals the square root of the sum of the squares of 5,400 and 13,608, or 14,640 pounds. The

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Are You in Hancock New Hampshire? Do You Need Concrete Cutting?

We Are Your Local Concrete Cutter

Call 603-622-4440

We Service Hancock NH and all surrounding Cities & Towns