The graph is drawn between the applied force F and the strain (x) for a thin uniform wire. The wire behaves as a liquid in the part
Sahay Sir > Question Answers > The graph is drawn between the applied force F and the strain (x) for a thin uniform wire. The wire behaves as a liquid in the part
A copper wire and a steel wire oif the same cross sectional area annd length are joined end to end . Equal and opposite longitudinal forc es are applied to the free ends giving a total elonganation of l. Then the two eires will have
09
Oct
A copper wire and a steel wire oif the same cross sectional area annd length are joined end to end . Equal and opposite longitudinal forc es are applied to the free ends giving a total elonganation of l. Then the two eires will have The graph is drawn between the applied force F and [...]
The graph is drawn between the applied force F and the strain (x) for a thin uniform wire. The wire behaves as a liquid in the part
09
Oct
The graph is drawn between the applied force F and the strain (x) for a thin uniform wire. The wire behaves as a liquid in the part The graph is drawn between the applied force F and the strain (x) for a thin uniform wire. The wire behaves as a liquid in the part October [...]
The diagram shows a force extension graph for a rubber band, consider the following statements (I). It will be easier to compress this rubber than expand it. (II). Rubber does not return to its original length after it is stretched. (III). The rubber band will get heated if it is stretched and released. Which of these can deduced from the graph
09
Oct
The diagram shows a force extension graph for a rubber band, consider the following statements (I). It will be easier to compress this rubber than expand it. (II). Rubber does not return to its original length after it is stretched. (III). The rubber band will get heated if it is stretched and released. Which of [...]