Elements of Mechanics: For the Use of Colleges, Academies, and High SchoolsA.S. Barnes & Burr, 1859 - 338 pages |
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Page 15
... that the entire force of attraction exerted by the earth upon any body , varies directly as the quantity of matter in the body , and inversely as the square of its distance from the DEFINITIONS AND INTRODUCTORY REMARKS . 15 Gravity.
... that the entire force of attraction exerted by the earth upon any body , varies directly as the quantity of matter in the body , and inversely as the square of its distance from the DEFINITIONS AND INTRODUCTORY REMARKS . 15 Gravity.
Page 16
... square of its distance from the centre of the earth . This force of attraction is mutual , so that the body attracts the earth according to the same law . Obser- vation has shown that this law of mutual attraction extends throughout the ...
... square of its distance from the centre of the earth . This force of attraction is mutual , so that the body attracts the earth according to the same law . Obser- vation has shown that this law of mutual attraction extends throughout the ...
Page 31
... square root of the sum of the squares of the two forces . From the figure , we also have , X Y COS a = and sin a = R ' R Hence , the resultant is completely determined . PRACTICAL EXAMPLES . 1. Two pressures of 9 and 12 pounds ...
... square root of the sum of the squares of the two forces . From the figure , we also have , X Y COS a = and sin a = R ' R Hence , the resultant is completely determined . PRACTICAL EXAMPLES . 1. Two pressures of 9 and 12 pounds ...
Page 33
... square root of the sum of the squares of the components . We also have from the figure , X Y Z COS a R cos B = = and cos y = R ' R ' Hence , the position of the resultant is completely determined . EXAMPLES . 1. Required the intensity ...
... square root of the sum of the squares of the components . We also have from the figure , X Y Z COS a R cos B = = and cos y = R ' R ' Hence , the position of the resultant is completely determined . EXAMPLES . 1. Required the intensity ...
Page 37
... of any two forces , applied at the same point , is equal to the square root of the sum of the squares of the two forces , plus twice the product of COMPOSITION AND RESOLUTION OF FORCES . 37 Expression for the Resultant of two Forces.
... of any two forces , applied at the same point , is equal to the square root of the sum of the squares of the two forces , plus twice the product of COMPOSITION AND RESOLUTION OF FORCES . 37 Expression for the Resultant of two Forces.
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Common terms and phrases
A. S. BARNES algebraic sum angular velocity atmosphere axes axle body called centre of gravity centrifugal force cistern components cord cubic cubic foot curve cylinder denote the angle distance elementary entire equal Equation equilibrium exerted feet fluid force applied force of gravity forces acting friction fulcrum Hence horizontal hydrometer inches inclined plane inertia instrument lever arm liquid machine mass mercury moment of inertia moments motion orifice parallel forces parallelogram parallelogram of forces particles passing Pcosa pendulum perpendicular pipe piston point of application polygon position power and resistance pressure principle principle of moments pulley pump quantity radius radius of gyration represent reservoir respect resultant right angles rope rotation Schools screw SOLUTION space specific gravity square steam Substituting suppose temperature tension tion triangle tube unit upper surface vertex vertical vessel vibration volume weight wheel whence
Popular passages
Page 182 - ... plus the product of the area and the square of the distance between the axes.
Page 223 - This electromotive force may be resolved into two components, one parallel and the other perpendicular to I, as shown, for example, in Fig.
Page 114 - The power is to the weight, as the radius of the pulley is to the chord of the arc enveloped by the rope.
Page 39 - Lami's Theorem. If three forces acting on a particle keep it in equilibrium, each is proportional to the sine of the angle between the other two.
Page 7 - BOURDON'S ALGEBRA 1 50 KEY TO DAVIES' BOURDON'S ALGEBRA 1 50 DAVIES' LEGENDRE'S GKOMETRY 1 50 DAVIES' ELEMENTS OF SURVEYING 1 50 DAVIES' ANALYTICAL GEOMETRY 1 25 DAVIES' DIFFERENTIAL AND INTEGRAL CALCULUS 1 25 DAVIES' DESCRIPTIVE GEOMETRY 2 00 DAVIES...
Page 42 - Hence, the moment of the resultant of two forces is equal to the algebraic sum of the moments of the forces taken separately. 53. Forces Acting at Different Points. Parallel Forces.— We have thus far considered forces acting upon a single particle, or upon one point of a body. If, how- Fia 33...
Page 180 - ... must be measured on a line at right angles to the direction of the force. Moment of Inertia. The moment of inertia of a body, with respect to an axis, is the sum of the products obtained by multiplying the mass of each elementary particle by the square of its distance from the axis; hence, the moment of inertia of the same body varies according to the position of the axis.
Page 5 - ... feet. Thus it appears, that it requires a force to lift the piston exactly equal to the weight of a column of water, whose base is equal to the section of the piston, and whose height...
Page 8 - JOHN A.* PORTER, AM. MD, Professor of Agricultural and Organic Chemistry in Yale College. Price $1.00. These works have been prepared expressly for Public and Union Schools, Academies, and Seminaries, where an extensive course of study on this subject and expensive apparatus was not desired, or could not be afforded. A fair, practical knowledge of Chemistry is exceedingly desirable, and almost a necessity, at tho present day, but it has been...