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Mont Vernon: A Well Developed Town In New Hampshire

Mont Vernon is one of the towns in the Hillsborough province of the New Hampshire State in the United States.

Geography:

This town covers an area of about 16.7 square miles, of that 0.1 square miles is covered by the water body and 16.6 square miles is covered by the land. This town is drained by Caesar’s Brook and Beaver Brook. Mont Vernon greatest point is located on its northern part at the height of the 1,015 feet above the sea level, adjacent to the point of Storey Hill.

Education offered for the Kid’s in this town

In this town, you can find one public school called Mont Vernon Village School; it’s an elementary school which offers education from Kindergarten up to 6th grade. The stundents of 7th and 8th grades sued to go to Amherst Middle School. And the students of from 9th to 12th are sent to the school called Souhegan High school that is in Amherst, however, together owned by Mont Vernon and Amherst. Amherst and Mont Vernon consist of school administrative unit SAU 39.

Fire department in Mont Vernon

The previous 2 story Mont Vernon Fire Station is established in the year 1947 and was situated on the Northern Major Street adjacent to the Town Hall. This fire station has six apparatus bays. In the year 2007, the town has nominated to raze the decaying building and replace this station with a brand new station on the similar lot.

A new fire station incorporates 5 apparatus bays that are facing towards the North Major Street and 1bay facing towards Pinkham Avenue. A Fire chief incorporates his office in a station, in addition to an office for the Emergency Management Director, a meeting room and a report and radio room. This station also incorporates work, storage and maintenance rooms. The Emergency Medical service is offered by Amherst.

Know about the Culture of this town

Mont Vernon has 2 main annual celebrations; in late April or beginning of May, it has a festivity of spring known as Mont Vernon Spring Gala. On the last Saturday at September month, this town organizes Lamson Farm Day at the town-owned meadow to commemorate occasion its agricultural past. Both attribute games, food as well as local entertainers.

Sites of interest: Some of the most beautiful points of interest in this town are Daland Library, Horton Pond, Purgatory falls trails along with Purgatory Brook and Mont Vernon Historical Society Museum.

Although such concrete is theoretically subject to tension, and does actually contribute its share of the tension when the stresses in the concrete beam are small, the proportion of the necessary tension which the concrete can furnish when the concrete beam is heavily loaded, is so very small that it is usually ignored, especially since such a policy is on the side of safety, and also since it greatly simplifies the theoretical calculations and yet makes very little difference in the final result. We may therefore consider that in a unit-section of the concrete beam, as in Fig. 92, the concrete above the neutral axis is subject to compression, and that the tension is furnished entirely by the steel. In computing the transverse stresses in a wooden concrete beam or steel I-concrete beam, it is assumed that the modulus of elasticity is uniform for all stresses within the elastic limit. Experimental tests have shown this to be so nearly true that it is accepted as a mechanical law. This means that if a force of 1,000 pounds is required to stretch a bar .001 of an inch, it will require 2,000 pounds to stretch it .002 of an inch. Similar tests have been made with concrete, to determine the law of its elasticity. Unfortunately, concrete is not as uniform in its behavior as steel. The results of tests are somewhat contradictory. Many concrete construction engineers have argued that the elasticity is so nearly uniform that it may be considered to be such within the limits of practical use. But all experimenters who have tested concrete by measuring the proportional compression produced by various pressures agree that the additional shortening produced by an additional pressure, say of 100 pounds per square inch, is greater at higher pressures than at low pressures. A test of this sort may be made substantially as follows: A square or circular column of concrete at least one foot long is placed in a testing machine. A very delicate micrometer mechanism is fastened to the concrete by pointed screws of hardened steel. These points are originally at a known distance apart—say 8 inches. When the concrete is compressed, the distance between these points will be slightly less. A very delicate mechanism will permit this distance to be measured as closely as the ten-thousandth part of an inch, or to about      of the length. Suppose that the various pressures per square inch, and the proportionate compressions, are as given in the following tabular form: We may plot these pressures and compressions as in Fig. 93, using any convenient scale for each. For example, for a pressure of 800 pounds per square inch, we select the vertical line which is at the horizontal distance from the origin according to the scale adopted. Scaling off on this vertical line the ordinate .00045, according to the scale adopted for compressions, we have the position of one point of the curve. The other points are obtained similarly. Although the points thus obtained from the testing of a single concrete blocks of concrete would not he considered sufficient to establish the law of the elasticity of concrete in compression, a study of the curves which may be drawn through the series of points obtained for each of a large number of concrete blocks, shows that these curves will average very closely to parabolas that are tangent to the initial modulus of elasticity, which is here represented in the diagram by a straight line running diagonally across the figure. It is generally considered that the axis of the parabola will be a horizontal line when the curve is plotted according to this method. The position of the vertex of the parabola cannot be considered as definitely settled. Professor Talbot has computed the curve as if the vertex were at the point of the ultimate compression of the concrete, although he conceded that the vertex might be in an imaginary position corresponding to a compression in the concrete higher than that which the concrete could really endure.

Are You in Mont Vernon New Hampshire? Do You Need Concrete Cutting?

We Are Your Local Concrete Cutter

Call 603-622-4440

We Service Mont Vernon NH and all surrounding Cities & Towns