Since, according to the third law of motion, every action has an equal and opposite reaction, we call that force which acts as an equal and opposite force to the pull of the string the centrifugal force, and it acts away from the center of motion. A Textbook on Mining Engineering - Página 281900Vista completa - Acerca de este libro
| 1897 - 366 páginas
...a tangent; " that is, it would move in a straight line tangent to the circle, as shown in Fig. 91. Since, according to the third law of motion, every...force, and it acts away from the center of motion. 517. The other force, or tension, of the string is called the centripetal force, and it acts towards... | |
| 1897 - 672 páginas
...tangent"—that is, it would move in a straight line tangent to the circle, as shown in Fig. 124. FIG. 184. which acts as an equal and opposite force to the pull...force, and it acts away from the center of motion. 903. The other force or tension of the string is called the centripetal force, and it acts towards... | |
| International Correspondence Schools - 1897 - 674 páginas
...All forces which act upon beams will be considered as vertical, unless distinctly stated otherwise. According to the third law of motion, every action has an equal and opposite reaction. Hence, when a beam is acted upon by downward forces, the supports react upwards. It is required to... | |
| International Correspondence Schools - 1899 - 394 páginas
...a tangent"—that is, it would move in a straight line tangent to the circle, as shown in Fig. 124. which acts as an equal and opposite force to the pull...force, and it acts away from the center of motion. 903. The other force or tension of the string is called the centripetal force, and it acts towards... | |
| International Correspondence Schools - 1901 - 630 páginas
...at a tangent"; that is, it would move in a straight line tangent to the circle, as shown in Fig. 15. Since, according to the third law of motion, every...action has an equal and opposite reaction, we call the force that acts as an equal and opposite force to the pull of the string the centrifugai force,... | |
| 1902 - 514 páginas
...at a tangent"; that is, it would move in a straight line tangent to the circle, as shown in Fig. 15. Since, according to the third law of motion, every...action has an equal and opposite reaction, we call the force that acts as an equal and opposite force to the pull of the string the centrifugal force,... | |
| 1902 - 666 páginas
...All forces which act upon beams will be considered as vertical, unless distinctly stated otherwise. According to the third law of motion, every action has an equal and opposite reaction. Hence, when a beam is acted upon by downward forces, the supports react upwards. It is required to... | |
| International Correspondence Schools - 1904 - 656 páginas
...according to the third law of motion, every actionhas an equal and opposite reaction, we call the force acts as an equal and opposite force to the pull of the the centrifugal force, and it acts away from the center of motion. 105. The other force, or tension,... | |
| Asghar Qadir - 1989 - 146 páginas
...distinct from the ‘rate of motion', was momentum rather than speed. A consequence of these laws was his third law of motion: “Every action has an equal and opposite reaction”. This was not enough to explain motion in general. Robert Hooke had earlier quantified and modified... | |
| Asghar Qadir - 1989 - 146 páginas
...distinct from the ‘rate of motion', was momentum rather than 8peed. A consequence of these laws was his third law of motion: “Every action has an equal and opposite reaction”. This was not enough to explain motion in general. Robert Hooke had earlier quantified and modified... | |
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