...as in fig. 96. To investigate the proportion of the power to the weight in this case, let fig. 97. represent a section of the apparatus at right angles...The moment of the force, which stretches the rope S, is half the weight multiplied by the radius of the thinner part of the axle. This force being at the...

...as in fig. 96. To investigate the proportion of the power- to the weight in this case, let fig. QJ. represent a section of the apparatus at right angles to the axis. The weight is equally upon a uniform axle, the action of the power would not be uniform, but would vary with the weight....

...as vajig. 96. To investigate the proportion of the power to the -weight in this case, let Jig. 97. represent a section of the apparatus at right angles...The moment of the force, which stretches the rope S, is half the weight multiplied by the radius of the thinner part of the axle. This force, being at the...

...as in Jig. 96. To investigate the proportion of the power to the weight in this case, let Jig. 97. represent a section of the apparatus at right angles...is stretched by a force equal to half the weight. Themoment of the force, which stretches the rope S, is half the weight multiplied by the radius of...

...weight in this case, let Fig. 145 represent a section of the apparatus at right angles to the Fig. 145. axis. The weight is equally suspended by the two parts...stretched by a force equal to half the weight. The momentum of the force which stretches the rope S, is half the weight multiplied by the radius of the...

...investigate the proportion of the power to the Fig. 145. Fig. 146. weight in this case, let Fig. 146 represent a section of the apparatus at right angles...stretched by a force equal to half the weight. The momentum of the force which stretches the rope S, is half the weight multiplied by the radius of .the...

...part, as in fig. 18. To investigate the proportion of the power to the weight in this case, let fig. 19 represent a section of the apparatus at right angles...The moment of the force which stretches the rope S is half the weight multiplied by the radius of the thinner part of the axle. This force, being at the...

...To investigate the proportion of the power Fig. 18. fig. 19. to the weight in this case, let fig. 19 represent a section of the apparatus at right angles...the axis. The weight is equally suspended by the two pans of the rope, S and S', and therefore each part is stretched by a force equal to half the weight....

...investigate the proportion of the powei Fig. 18. Fig. 19. i to the weight in this case, let fig. 19 represent a section of the apparatus at right angles...therefore each part is stretched by a force equal in half the weight. The moment of the force which stretches the rope S is half the weight multiplied...

...part, as infig.Qd. To investigate the proportion of the power to the weight in this case, let fig. 97- represent a section of the apparatus at right angles...to half the weight. The moment of the force, which stretche* the rope S, is half the weight multiplied by the radius of the thinner part of the axle....