An X-ray tube has three main controls.
(i). The target material (its atomic number Z)
(ii). The filament current `(l_(f))` and
(iii). The accelerating voltage (V)
Figure shown a typical intensity distribution against wavelength which of the following si incorrect?

The intensity of X-rays firom a coollidge tube is plotted against wavelength lambda as shown in the figure-3.12. Which ofthe following statements is/are correct:

A conductor is made of an isotropic material and has shape of a truncated cone. A battery of constant emf is connected across it and its left end is earthed as shown in figure. If at a section distant x from left end electric field intensity potential and the rate of generation of heat per unit length are E V and H respectively which of the following graphs is/are correct?

The intensity distribution of X - rays from two Coolidge tubes operated on different voltages V_(1) and V_(2) and using is shown in the figure . Which one of the following inequalities is true ?

A potential difference of 40,000 V is applied between the filament and the target metal inside X-ray tube. It is found that a current of 1 mA flows in the tube. (i)How many electrons are hitting the target metal per second ? (ii)Calculate the amount of energy falling on target metal per second in the form of kinetic energy of the electron . (iii)What will be the cutoff wavelength of X-rays produced from this tube ?

A conducting rod is moving with a constant velocity v over the parallel conducting rails which are connected at the ends through a resistor R and capacitor C as shown in the figure. Magnetic field B is into the plane. Consider the following statements. i. Current in loop AEFBA is anti clockwise, ii. Current in loop AEFBA is clockwise iii Current through the capacitor is zero iv Energy stored in the caspacitor is 1/2 CB^2L^2v^2 Which is the following options in correct?

A physics lab is designed to study the transfer of electrial energy from one circuit to another by means of a magnetic field using simple transformers. Each transformer has two coils of wire electrically insulated from each other but wound a round a common core of ferromagnetic material. The two wires are close together but do not touch each other The primary (1^(@)) coil is connected to a source of alternating (AC) current. The secondary (2^(@)) coil is connected to resistor such as a light bulb. The AC source produces on oscillating voltage and current in the primary coil that produces an oscillating megnetic field in the core. material. This in turn induces an oscillating voltage and AC curent in the secondary coil Students collected the following data comparing the number of turns per coil (N) , the voltage (V) and the current (I) in the coils of three transformers. |{:("Transformer","primary coil","Secondary coil"),(1,100 . 10V.10A,200.20V.5A),(2,100.10V.10A,50.5V.5A),(3,100.10V.10A,100.5V.20A):}| A trasnsformer with 40 turns in its primary coil is connected to a 120 V AC source. If 20 W of power if supplied to the primary coil, how much power is developed in the secondary coil ?

A physics lab is designed to study the transfer of electrial energy from one circuit to another by means of a magnetic field using simple transformers. Each transformer has two coils of wire electrically insulated from each other but wound a round a common core of ferromagnetic material. The two wires are close together but do not touch each other The primary (1^(@)) coil is connected to a source of alternating (AC) current. The secondary (2^(@)) coil is connected to resistor such as a light bulb. The AC source produces on oscillating voltage and current in the primary coil that produces an oscillating megnetic field in the core. material. This in turn induces an oscillating voltage and AC curent in the secondary coil Students collected the following data comparing the number of turns per coil (N) , the voltage (V) and the current (I) in the coils of three transformers. |{:("Transformer","primary coil","Secondary coil"),(1,100 . 10V.10A,200.20V.5A),(2,100.10V.10A,50.5V.5A),(3,100.10V.10A,100.5V.20A):}| Which of the following is a correct expression for R , the resistance of the load connected to the secondary coil