SLANTING DIRECTION OF THE SHOULDER. 



231 



A is a lever resting or turning on a pivot, B; C is the weight to he raised, 

 and D is the power and situatron at wliich the power is applied. If we 

 apply our strength in a direction perpendicular to the lever, as represented 

 by the line E, we can easily calculate the strength which we must exert 



In proportion as the distance of the power from the pivot or centre of 

 motion exceeds that of the weight from the same place, so will be the 

 advantage gained. The power here is twice as far from the centre as the 

 weight is, and therefore we gain advantage in the proportion of two to one , 

 or if the weight be equal to 200 lbs., a force of 100 lbs. will balance it. If 

 we alter the direction in which the power is applied, and suppose it to be in 

 that of the line F, will 100 lbs. now do ? No; nothing like it. How shall 

 we calculate, then, the power that is necessary ? We must prolong the line 

 of direction until another line, falling perpendicularly from the lever, and 

 commencing at the centre of motion, will cut it; and the length of that line 

 will give us the actual effect of the strength we employ. Now, this new 

 line is but half as long as the distance of the weight from the centre of 

 motion, and therefore we lose advantage in the proportion of two to one ; or 

 a strength equal to 400 lbs. must be exerted to raise the 200 lbs., and so on 

 in proportion to the deviation from the right or perpendicular line. 



Let us next take the shoulder of the h'orse. The point of the shoulder, 

 the shoulder-joint, is the pivot or centre of motion ; the leg attached to the 

 bone of the arm is the weight ; the shoulder-blade being more fixed is the part 

 whence the power is exerted ; and the muscles extending from the one to the 

 other are the lines in which that power is exerted. These lines approach 

 much more nearly to a perpendicular in the oblique than in the upright 

 shoulder (see cut). In the upright shoulder, the shoulder-blade and the 

 bone of the arm are almost in a straight line, and the real action and power 

 of the muscle are most strangely diminished. In this point of view the 

 oblique shoulder is most important. It not only gives extensive action, but 

 facility of action ; the power of the muscles is more than doubled by being 

 exerted in a line approaching so much nearer to a perpendicular. 



There is yet another advantage of the oblique shoulder. The point of 

 the shoulder is projected forward; and therefore the pillars which support 

 the fore part of the horse are likewise placed proportionably torward, and 

 they have less weight to carry ; and are exposed to less concussion, a 

 especially concussion in rapid action. The horse is also much safer ; 

 having less weight lying before the pillars of support, he is not so likely 

 have the centre of gravity thrown before and beyond them by an acci- 

 dental trip; or, in other words, he is not so likely to fall ; and he rides more 

 pleasantly, for there is far less weight bearing on the hand of the rider, 

 and annoying and tiring him. It likewise happens unfortunately that 

 . nature, as it were to supply the deficiency of action and of power in an 

 upright shoulder, has accumulated on it more muscle, and therefore the 

 upright shouldei is proverjjially thick and cloddy; and the muscles of the 



