Elements of Dynamic: An Introduction to the Study of Motion and Rest in Solid and Fluid Bodies, Volumer 1-3MacMillan and Company, 1878 |
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Resultat 1-5 av 34
Side 20
... constant ; therefore the shape of the parallelogram remains unchanged . Consequently or is of constant length , and makes always the same angle with op or oq . Hence r goes round uniformly in a circle of radius or . K Let op = P1 , oq ...
... constant ; therefore the shape of the parallelogram remains unchanged . Consequently or is of constant length , and makes always the same angle with op or oq . Hence r goes round uniformly in a circle of radius or . K Let op = P1 , oq ...
Side 48
... traversed in equal times , is that the velocity remains constant through- out the motion ; a body which moves uniformly is always going at the same rate . ABSOLUTE MEASURE OF VELOCITY . 49 But although this rate 48 DYNAMIC .
... traversed in equal times , is that the velocity remains constant through- out the motion ; a body which moves uniformly is always going at the same rate . ABSOLUTE MEASURE OF VELOCITY . 49 But although this rate 48 DYNAMIC .
Side 66
... constant , and y will represent the time , so that u will be 3x + 10y ; this is called the flux of u with regard to y , or the y - flux of u , and is denoted by a , u . The characteristic a may be sup- posed to stand for derived ...
... constant , and y will represent the time , so that u will be 3x + 10y ; this is called the flux of u with regard to y , or the y - flux of u , and is denoted by a , u . The characteristic a may be sup- posed to stand for derived ...
Side 68
... constant acceleration amounts at Paris to 981 centimeters a second per second ; it is called the acceleration of ... constantly directed to a fixed point are of the greatest importance in physics : and we shall subsequently have to study ...
... constant acceleration amounts at Paris to 981 centimeters a second per second ; it is called the acceleration of ... constantly directed to a fixed point are of the greatest importance in physics : and we shall subsequently have to study ...
Side 78
... constant ; for the dif- ferent intervals represented by mn will be equal , and the m 72 quantity is equally multiplied in equal times . We shall have therefore s = ks ,, where k is this constant multiplier . Therefore sks ,, and ...
... constant ; for the dif- ferent intervals represented by mn will be equal , and the m 72 quantity is equally multiplied in equal times . We shall have therefore s = ks ,, where k is this constant multiplier . Therefore sks ,, and ...
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Elements of Dynamic: An Introduction to the Study of Motion and ..., Volum 1 William Kingdon Clifford Uten tilgangsbegrensning - 1878 |
Elements of Dynamic: An Introduction to the Study of Motion and ..., Volum 1 William Kingdon Clifford Uten tilgangsbegrensning - 1878 |
Elements of Dynamic: An Introduction to the Study of Motion and ..., Volumer 1-3 William Kingdon Clifford Uten tilgangsbegrensning - 1878 |
Vanlige uttrykk og setninger
abcd acceleration angular velocity approximately axes axis axode bisects ca² called centimeter centrode circle circulation round complex number component compound conjugate diameters constant cross-ratio curvature curve of positions cycloidal cylinder cylindroid described direction displacement draw eccentric anomalies ellipse ellipsoid equal equation equipotential surface expansion finite fixed point flux function given Hence hodograph homogeneous strain hyperbola hyperboloid instant interval inverse length lines of flow magnitude mean velocity moving plane moving point multiplied orbit parabola parallelogram path perpendicular projection quantity radius rate of change ratio represented resultant right angles rigid body rolling rotation scalar screw shew simple harmonic motion solid angle sphere spin step straight line strained position suppose surfaces of revolution theorem translation triangles twist uniform circular motion vector velocity-potential velocity-system vortex-filament zero
Populære avsnitt
Side 102 - A conic is the locus of a point whose distance from a fixed point called the focus is in a constant ratio to its distance from a fixed line, called the directrix.
Side 99 - E, &c., causing the body to describe in the successive intervals of time the straight lines CD, DE, EF, &c., these will all lie in the same plane ; and the triangle SCD will be equal to the triangle SBC, and SDE to SCD, and SEF to SDE. Therefore equal areas are described in the same...
Side iii - CLIFFORD- THE ELEMENTS OF DYNAMIC. An Introduction to the Study of Motion and Rest in Solid and Fluid Bodies.
Side 98 - ... fixed center of force, are in one fixed plane, and are proportional to the times of describing them. Let the time be divided into equal parts, and in the first interval let the body describe the straight line AB with uniform velocity, being acted on by no force. In the second interval it would, if no force acted, proceed to c in AB produced, describing Be equal to AB : so that the equal areas ASB, BSc described by radii AS, BS, cS drawn to the center S, would be completed in equal intervals.
Side 31 - A, it may be resolved into two components, one in the plane PCA and the other perpendicular to it, and both tangential to the spherical surface.
Side 103 - SP-HP=2a; that is, the difference of the focal distances of any point on the hyperbola is equal to the transverse axis. 219. The equation y* = -i (x2 — a2), may be written y=~. (xHence (see Fig. to Art. 213), _ AM.A'M~ AC*' Tangent and Normal to an Hyperbola.
Side 33 - ... the resultant of any number of simple harmonic motions of the same period and in the same line.