In a copper voltmeter, mass deposite in `30` seconds is `'m'` gram. If the time-current graph is as shown in figure. `ECE` of copper is

For body of 50 kg. mass, the velocity time graph is shown in figure. Then force acting on the body is :-

Velocity versus time graph of a body is shown in figure. It explains that

If Electric-current 'i' time (t) graph shown in figure. The average current in first 6 sec. is :-

For a cell, the graph between the potential difference (V) across the terminals of the cells and the current I drawn from the cell is as shown in figure. Calculate the e.m.f. and the internal resistance of the cell.

A copper voltameter is connected in series with a coil of resistance 100Omega . A steady current flowing in the circuit for 10 minutes, gives a deposit of 0.1 g of copper in the voltameter. Calculate the heat generated in the resistance coil. (ECE of Cu 3.3xx10^(-7)kg//C )

Two substances A and B of equal mass m are heated by uniform rate of 6 "cal"s^(-1) under similar conditions. A graph between temperature and time is shown in figure. Ratio of heat absorbed H_(A) //H_(B) by them during complete fusion :-

The displacement time graph of a particle executing SHM is shown in figure. Which of the following statement is/are true?

A steady current of 1.5 A flows through a copper voltameter for 10 min. If the electrochemical equivalent of copper is 30 xx 10^(-5) gC^(-1) , the mass of copper deposited on the electrode will be