The Boston School Compendium of Natural and Experimetal Philosophy: Embracing the Elementary Principles of Mechanics, Hydrostatics, Hydraulics, Pneumatics ... with a Description of the Steam and Locomotive Engines |
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Page 19
... represented by twelve , multi- plied by four , which is forty - eight . The quicker a body moves , the greater will be the force with which it will strike against another body ; so that a small , light body may have a greater momentum ...
... represented by twelve , multi- plied by four , which is forty - eight . The quicker a body moves , the greater will be the force with which it will strike against another body ; so that a small , light body may have a greater momentum ...
Page 20
... represents two ivory balls , A and B , of equal weight , & c . suspended by threads . If the ball A be drawn a little on one side and then let go , it will strike against the other ball B , and drive it off to a distance equal to that ...
... represents two ivory balls , A and B , of equal weight , & c . suspended by threads . If the ball A be drawn a little on one side and then let go , it will strike against the other ball B , and drive it off to a distance equal to that ...
Page 24
... represents a ball struck by the two equal forces , X and Y. In this figure , the forces are inclined to each other ... represents a ball struck by two equal forces in different directions . Second , by Fig . 9 , which represents a ball ...
... represents a ball struck by the two equal forces , X and Y. In this figure , the forces are inclined to each other ... represents a ball struck by two equal forces in different directions . Second , by Fig . 9 , which represents a ball ...
Page 26
... represents the vanes of a wind- mill . The circles denote the paths in which the different parts of the vanes move ... represent ? What follows with regard to the motion of the earth , from the illustration of Fig . 11 ? 169. Of what is ...
... represents the vanes of a wind- mill . The circles denote the paths in which the different parts of the vanes move ... represent ? What follows with regard to the motion of the earth , from the illustration of Fig . 11 ? 169. Of what is ...
Page 27
... represents a cannon , loaded with a ball , and placed on the top of a tower , at such a height as to require just three seconds for another ball to de- scend perpendicularly . Now sup- pose the cannon to be fired in a hor- izontal ...
... represents a cannon , loaded with a ball , and placed on the top of a tower , at such a height as to require just three seconds for another ball to de- scend perpendicularly . Now sup- pose the cannon to be fired in a hor- izontal ...
Common terms and phrases
air pump angles of incidence aphelion appear ascertained atmosphere attraction axis axle ball battery called cause centre of gravity Ceres circle cohesion color comet communicated compressed concave mirror condensing constructed convex lens cylinder degree diameter direction distance earth eclipse effect elastic electric fluid equal experiment Explain Fig fall figure focus force galvanic glass heat heavenly bodies Herschel Illustration inch inclined instrument Jupiter kinds lever Leyden jar liquid luminous body machine magnet mercury metals moon motion move object orbit particles pass perihelion perpendicular piston placed planets plate pole pounds pressure prime conductor principle produced pulley quantity rays of light reflected reflecting telescope refraction represents retina revolve rise rods Saturn screw seen side specific gravity stars steam stop cock substances surface syphon telescope tion tricity tube valve vapor velocity vessel vibrations voltaic voltaic pile weight wheel wire zinc
Popular passages
Page 174 - Venus, a pea on a circle 284 feet in diameter ; the Earth also a pea, on a circle of 430 feet ; Mars, a rather large pin's head, on a circle of 654 feet...
Page 174 - Mars a rather large pin's head, on a circle of 654 feet; Juno, Ceres, Vesta, and Pallas, grains of sand, in orbits of from...
Page 39 - ... of time that the axle describes a small one, therefore the power is increased in the same proportion as the circumference of the wheel is greater than that of the axle. If the velocity of the wheel...
Page 73 - If, in the commencement of this experiment, the balloon be made to have a specific gravity too near that of water, it will not rise of itself, after once reaching the bottom, because the pressure of the water then above it will perpetuate the condensation of the air which caused it to descend. It may even...
Page 197 - If the moon went round the earth in the same plane in which the earth goes round the sun, that is, in the ecliptic, it is plain that the sun would be eclipsed at every new moon ; and the moon would be eclipsed at every full. For at each of these times, these three bodies would be in the same straight line.. But the moon's orbit does not coincide with the ecliptic, but is inclined to it at an angle of about 5° 20'.
Page 18 - drive it off to a distance equal to that through which the first ball fell ; but the motion of A will be stopped, because when it strikes B it receives in return a blow equal to that which it gave, but in a contrary direction, and its motion is thereby stopped, or rather, given to B. Therefore, when a body strikes against another, the quantity of motion communicated to the second body is lost by the first ; but this loss proceeds, not from the blow given by the striking body, but from the reaction...
Page 169 - Each strand 27* is wound on a little less than an inch; in the middle of the horse-shoe it forms three thicknesses of wire; and on the ends, or near the poles, it is wound so as to form six thicknesses.
Page 186 - ... show that heat is produced by the sun's rays only when they act on a calorific medium: they are the cause of the production of heat, by uniting with the matter of fire which is contained in the substances that are heated...
Page 97 - By his admirable contrivance, it has become a thing stupendous alike for its force and its flexibility, — for the prodigious power which it can exert, and the ease, and precision, and ductility, with which that power can be varied, distributed, and applied. The trunk of an elephant, that can pick up a pin or rend an oak, is as nothing to it. It can engrave a seal, and crush masses of obdurate metal before it — draw out, without breaking, a thread as fine as gossamer...
Page 20 - A Circle is a plane figure bounded by a curved line called a circumference, every point of which is equally distant from a point within called the centre.