In circuit (i) above, the current I was measured as a function of the resistance R, for a single cell of emf ε and inter
Posted: Wed May 18, 2022 7:00 am
In circuit (i) above, the current I was
measured as a function of the resistance R, for
a single cell of emf ε and internal
resistance r.
In circuit (ii) above, the current I was
measured as a function of the resistance R, for
two identical cells, each of emf ε and internal
resistance r, connected in series.
Cara te) ti) (10) 1 1 1 **21 1/1 1 fe) 1 111 ett) (0) --- (4) (a) 1 10 1 + IA (1) (0) 1 111 (1) (1) In circuit (i) above, the current I was measured as a function of the resistance R for a single cell of emfa and internal resistancer. In circuit (ii) above, the current I was measured as a function of the resistance R, for two identical cells, each of emf & and internal resistancer, connected in series. Which of the graphs above correctly shows the dependence of 1/1 vs R for the two cases? O (c) O (e) (d) (a) (f) (b)
measured as a function of the resistance R, for
a single cell of emf ε and internal
resistance r.
In circuit (ii) above, the current I was
measured as a function of the resistance R, for
two identical cells, each of emf ε and internal
resistance r, connected in series.
- 1 (75.3 KiB) Viewed 37 times