A Course of Mathematics: For the Use of Academies, as Well as Private Tuition, Volume 2S. Cambell, 1818 - 558 pages |
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... Centre of Gravity . Strength and stress of beams , & c . Centre of Percussion Centre of Oscillation Centre of Gyration Of Hydrostatica Of Hydraulics Page Diving - bell and condensing machine Barometer 5 191 HI 144 ཝོདྭེ ཙྭ ཚ ནྲྀ སྒྲ ིི ...
... Centre of Gravity . Strength and stress of beams , & c . Centre of Percussion Centre of Oscillation Centre of Gyration Of Hydrostatica Of Hydraulics Page Diving - bell and condensing machine Barometer 5 191 HI 144 ཝོདྭེ ཙྭ ཚ ནྲྀ སྒྲ ིི ...
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... Gravity * Of the Piling of Balls and Shells Of Distances by the velocity of Sound Page 233 236 239 245 247 Practical ... Centre of . Gravity 375 Practical OURSE OF MATICS , & c . CONSIDERED ANALYTICALLY , . VI CONTENTS . ༢.
... Gravity * Of the Piling of Balls and Shells Of Distances by the velocity of Sound Page 233 236 239 245 247 Practical ... Centre of . Gravity 375 Practical OURSE OF MATICS , & c . CONSIDERED ANALYTICALLY , . VI CONTENTS . ༢.
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... Centre of Gravity • 169 Strength and stress of beams , & c . 181 Centre of Percussion • 193 Centre of Oscillation Centre of Gyration Of Hydrostatics Of Hydraulics Of Pneumatics 196 199 201 212 217 Of the Syphon Of the Air - Pump 227 ...
... Centre of Gravity • 169 Strength and stress of beams , & c . 181 Centre of Percussion • 193 Centre of Oscillation Centre of Gyration Of Hydrostatics Of Hydraulics Of Pneumatics 196 199 201 212 217 Of the Syphon Of the Air - Pump 227 ...
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... Gravity Of the Piling of Balls and Shells Of Distances by the velocity of Sound Page 233 236 239 245 247 Practical ... Centre of Gravity • 366 368 370 375 Practical COURSE OF MATHEMATICS , & c . PLANE TRIGONOMETRY CONSIDERED VI CONTENTS ...
... Gravity Of the Piling of Balls and Shells Of Distances by the velocity of Sound Page 233 236 239 245 247 Practical ... Centre of Gravity • 366 368 370 375 Practical COURSE OF MATHEMATICS , & c . PLANE TRIGONOMETRY CONSIDERED VI CONTENTS ...
Page 128
... GRAVITY ; THE DESCENT OF HEAVY BODIES ; AND THE MOTION OF PROJECTILES IN FREE SPACE . PROPOSITION XVIII . 69. All ... centre of the earth ; and since this is the force by which bodies descend to the surface ; they therefore descend by a force ...
... GRAVITY ; THE DESCENT OF HEAVY BODIES ; AND THE MOTION OF PROJECTILES IN FREE SPACE . PROPOSITION XVIII . 69. All ... centre of the earth ; and since this is the force by which bodies descend to the surface ; they therefore descend by a force ...
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Common terms and phrases
absciss altitude axis ball base beam becomes body centre of gravity circle circumference consequently Corol cosine curve denote density descending determine diameter direction distance earth elevation equa equal equation equilibrio EXAM expression feet find the fluent fluid fluxion force given Hence horizontal hyperbola inches inclined plane length lever logarithm measured meridian motion move nearly oblique parabola parallel pendulum perp perpendicular polygon pressure prob PROBLEM projectile prop proportional PROPOSITION quadrant quantity radius ratio resistance right angles right line roots Scholium sides sin² sine solid angle space specific gravity spherical angle spherical excess spherical triangle spherical trigonometry square supposed surface tangent theorem theref three angles tion trapezium velocity vibrations weight whence whole
Popular passages
Page 15 - In any plane triangle, the sum of any two sides is to their difference, as the tangent of half the sum of the opposite angles is to the tangent of half their difference.
Page 206 - Then say, As the weight lost in water, Is to the whole weight, So is the specific gravity of water, To the specific gravity of the body.
Page 407 - Or, by art. 31* of the same, the pressure is equal to the weight of a column of the fluid, whose base is equal to the surface pressed, and its altitude equal to the depth of the centre of gravity below...
Page 173 - Hence the magnitude of the whole body, is to the magnitude of the part immersed, as the specific gravity of the fluid, is to that of the body.
Page 421 - From the same table it also appears, that the time of the ball's flight is nearly as the range ; the gun and elevation being the same.
Page 421 - ... increasing the charge, the velocity gradually diminishes, till the bore is quite full of powder. That this charge for the greatest velocity is greater as the gun is longer, but yet not greater in so high a proportion as the length of the gun is ; so that the part of the bore filled with powder, bears a less proportion to the whole bore in the long guns, than it does in the shorter ones ; the part which is filled being indeed nearly in the inverse ratio of the square root of the empty part.
Page 175 - As the weight lost in water is to the whole, or absolute weight ; so is the specific gravity of water ' " to "the specific gravity 'of the body . 2.
Page 417 - Finally, as these experiments prove the regulations with respect to the weight of powder and shot, when discharged from the same piece of ordnance ; so, by making similar experiments with a gun varied in its length by cutting off from it a certain part, before each set of trials, the effects and general rules for the different lengths of guns, may be with certainty determined by them.
Page 107 - ... powder, and that but a small one too ; so that all those nearly agree with the parabolic theory. Other experiments have also been carried on with the ballistic pendulum, at different times ; from which have been obtained some of the, laws for the quantity of powder, the weight and velocity of the ball, the length of the gun, &c. Namely, that the velocity of the ball varies as the square root of the charge directly, and as the square root of the weight of ball reciprocally ; and 'that, some rounds...