Three light sources A,B, and C emit equal amount of radiant energy per unit time. The wavelength emitted by the three sources are 450 nm, 555 nm and 700 nm respectively. The brightness sensed by an eye for the sources are `X_A, X_B and X_c` respectively. Then

The prices of three commodities A,B and C are Rs x, y and z per unit respectively. A person P purchases 4 units of B and sells two units of A and 5 units of C. Person Q purchases 2 units of C and sells 3 units of A and one unit of B. Person R purchases one unit of A and sells 3 unit of B and one unit of C. In the process, PQ and R earn Rs 15,000, Rs 1,000 and Rs 4,000 respectively. Find the prices per unit of A,B and C. (Use matrix inversion method to solve the problem.)

A ship is fitted with three engine es E_1,E_2a n dE_3dot the engines function independently of each other with respective probabilities 1/2, 1/4, and 1/4. For the ship to be operational at least two of its engines must function. Let X denote the event that the ship is operational and let X_1, X_2a n dX_3 denote, respectively, the events that the engines E_1, E_2a n dE_3 are function. Which of the following is/are true? a. P(X1C"|"x)=3/(16) b. P (exactly two engines of the ship are functioning |X ) =7/8 c. P(X"|"X_2)=5/6 d. P(X"|"X_1)=7/(16)

A light source of wavelength 520nm emits 1.04 xx 10^(15) photons per second while the second source of 460nm produces 1.38 xx 10^(15) photons per second. Then the ratio of power of second source to that of first source is

A source emitting light of wavelengths 480 nm and 600 nm is used in a double slit interference experiment. The separation between the slits is 0.25 mm and the interference is observed on a screen placed at 150 cm from the slits. Find the linear separation between the first maximum (next to the central maximum) corresponding to the two wavelengths.

Three observers A, B and C measure the speed of light coming from a source to be v_A,v_B and v_C . The observer A moves towards the source and C moves away from the soure at the same speed. The observer B stays stationary. The surrounding space is vacuum everywhere .

If a, b, c are in G.P. and x, y are the arithmetic mean of a, b and b, c respectively, then 1/x + 1/y is equal to

There are two factories located at place P and the other the place Q. From these locations, a certain commodity is to be delivered to eachof the three depots situated A, B and C. the weekly requirement of the de-pots are respectively 5,5 and 4 units of the commodity while the production capacity of the factories at P and Q are respectively 8 and 6 units. The cost of transportation per unit is gien below. How many units should be transported from each factory to each depot in order that the transportation cost in minimum ? What whill be the minimum transportation cost ?

There is a factory located at each of the two places P and Q. From these locations a certain commodity is delivered to each of the three depots situated at A, B and C. The weekly requirements of the depots are respectively 5, 5 and 4 units of the commodity while the production capacity of the factories at P and Q are respectively 8 and 6 units. The cost of transportation per unit is given below. Formulate the above LPP mathematically in order thaet transportation const in minimum. Solve the I.P.P.