end of the chain, in order to keep the foremost man in a right line; and a surveyor who bas no such person, should chain himself. The inaccuracies of most surveys arise from bad chaining, that is, from straying out of the right line, as well as from other omissions of the hinder chainman: no person, therefore, should be admitted at the hinder end of the chain, of whose abilities in this respect, the surveyor was not previously convinced ; since the success of the survey, in a grest measure, depends on his care and skill. In setting out to measure any stationary distance, the foreman of the chain carries with him 10 iron pegs pointed, each about ten inches long; and wlien he has stretched the chain to its full length, he at the extremity thereof sticks one of those pegs perpendicularly in the ground; and leaving it there, he draws on the chain till the binder man checks him when he arrives at that peg: the chain being again stretched, the fore man sticks down another peg, and the hind man takes up and thus they proceed at every chain's length contained in the line to be measured, counting the surplus links contained between the last peg, and the object at the termination of the line, as before: 80 that, the number of pegs taken up by the hinder chainman, expresses the number of chains ; to which, if the odd links be annexed, the distance line required in chains and links is obtained, which must be registered in the field book, as will hereaf or peg rea COT trene pote othe the former; ter be shewn. deed to measure as before, till the leader's pegs are again exhausted, and the hinder chainman at the extremity of these 10 chains again delivers hiin the pegs; from whence they proceed to measure the whole distance line in the like manner; then it is plain, that the number of pegs the hinder chainman bas, being added to 10, if he had delivered all the pegs once to the leader, or to 20 if twice, or to 30 if thrice, &c. will give the number of chains in that distance; to which if the surplus links be added, the length of the stationary distance is known in chains and links. It is customary, and indeed necessary, to have red, or other coloured cloth fixed to the top of each peg, that the hinder man at the chain may the more Teadily find them; otherwise, in chaining through corn, high grass, briars, rushes, & c. it would be extremely difficult to find the pegs which the leader puts down : by this means no time is lost, which otherwise must be, if no cloths are fixed to the pegs, as before. It will be necessary here to observe, that all slant, or inclined surfaces, as sides of hills, are measured horizontally, and not on the plane or surface of the hill, and is thus affected. PL. 8. fig. 4. Let ABC be a hill, the hindmost chainman is to hold the end of the chain perpendicularly over the point A (which he can the better effect with a plummet and line, then by letting a stone drop, which is most usual) as d is over A, while the leader puts down his peg at e: the eye can direct the horizontal position near enough, but if greater aceuracy T end of the chain, in order to keep the foremost man in a right line; and a surveyor who has no such person, should chain himself. The inaccuracies of most surveys arise from bad chaining, that is, from straying out of the right line, as well as from other omissions of the hinder chainman: no person, therefore, should be admitted at the hinder end of the chain, of whose abilities in this respect, the surveyor was not previously convinced ; since the success of the survey, in a grest measure, depends on his care and skill. ; In setting out to measure any stationary distance, the foreman of the chain carries with him 10 iron pegs pointed, each about ten inches long; and when he has stretched the chain to its full length, he at the extremity thereof sticks one of those pegs perpendicularly in the ground; and leaving it there, he draws on the chain till the binder man checks him when he arrives at that peg: the chain being again stretched, the fore man sticks down another peg, and the hind man takes up the former; and thus they proceed at every chain's length contained in the line to be measured, counting the surplus links contained between the last peg, and the object at the termination of the line, as before: so that, the number of pegs taken up by the hinder chainman, expresses the number of chains; to which, if the odd links be annexed, the distance line required in chains and links is obtained, which must be registered in the field book, as will hereafter be shewn. If the distance exceeds 10, 20, 30, &c. chains, when the leader's pegs are all exhausted, the binder chainınan, at the extremity of the 10 chains, delivers him all the pegs ; from whence they proDeed to measure as before, till the leader's pegs are again exhausted, and the hinder chainman at the 'extremity of these 10 chains again delivers hin the pegs; from whence they proceed to measure the whole distance line in the like manner ; then it is plan, that the number of pegg the hinder chainman has, being added to 10, if he had delivered all the pegs once to the leader, or to 20 if twice, or to 30 if thrice, &c. will give the number of chains in that distance; to which if the surplus links be added, the length of the stationary distance is known in chains and links. It is customary, and indeed necessary, to have red, or other coloured cloth fixed to the top of each peg, that the hinder man at the chain may the more readily find them; otherwise, in chaining through corn, high grass, briars, rushes, &c. it would be extremely difficult to find the pegs which the leader · puts down : by this means no time is lost, which otherwise must be, if no cloths are fixed to the pegs, as before. PL. 8. fig. 4. Let ABC be a hill, the hindmost chainman is to hold the end of the chain perpendicularly over the point A (which he can the better effect with a plummet and line, then by letting a stone drop, which is most usual) as d is over A, while the leader puts down his peg at e: the eye can direct the horizontal position near enough, but if greater aceuracy T were required, a quadrant applied to the chain, would settle that. In the same manner the rest may be chained up and down; but in going down it is plain the leader of the chain must hold up the end thereof, and the plummet thence suspended, will mark the point where he is to stick his peg. The figure is sufficient to render the whole evident; and to shew that the sum of the chains will be the horizontal measure of the base of the bill: fot de=A0, fg=op, hi=pq, &c. therefore dex fg *hi, &c = Aox P*p1,&c. = AC, the base of the hill. If a whole chain cannot be carried horizontally, half a chain, or less, may, and the sum of these half chains, or links, will give the base, as before. a If the inclined side of the hill be the plane surface, the angle of the hill's inclination may be taken, and the slant height may be measured on the surface; and thence (hy case 1, of right angled trigonometry) the horizontal line answering to the top, may be found; and if we have the angle of inclination given on the other side, with those already given ; we can find the horizontal distance across the hill, by case 2. of oblique trigonometry. All inclined surfaces are considered as horizontal ones; for all trees which grow upon any inclined surface, do not grow perpendicular thereto, but to the plane of the horizon: thus if Ad, ef, gh, &c. were trees on the side of a hill, they grow perpendicular to the horizontal base AC, and not to the surface AB: hence the base will be capable to contain as many trees as are on the surface of the hill, which is manifest from the continuation of them thereto. And this is the reason that the area of the base of a hill, is considered to be equal in value to the hill itself. |