Locataed in Nigdi, the Bhakti Shakti flag was set up by the PCMC in 2018. The approximately 105 metre high flagpole and the flag is made up of knitted polyester. The height of the flagpole is PQ and the distance between the foot of the flagpole Q and a point R on the ground is 208m.

The value of `tan^(2)P- sec^(2)P` is

Locataed in Nigdi, the Bhakti Shakti flag was set up by the PCMC in 2018. The approximately 105 metre high flagpole and the flag is made up of knitted polyester. The height of the flagpole is PQ and the distance between the foot of the flagpole Q and a point R on the ground is 208m. The value of sin P is

Locataed in Nigdi, the Bhakti Shakti flag was set up by the PCMC in 2018. The approximately 105 metre high flagpole and the flag is made up of knitted polyester. The height of the flagpole is PQ and the distance between the foot of the flagpole Q and a point R on the ground is 208m. The value of cosec R is

Locataed in Nigdi, the Bhakti Shakti flag was set up by the PCMC in 2018. The approximately 105 metre high flagpole and the flag is made up of knitted polyester. The height of the flagpole is PQ and the distance between the foot of the flagpole Q and a point R on the ground is 208m. tan P-cot R is

Locataed in Nigdi, the Bhakti Shakti flag was set up by the Pimpri Chinchwad Municipal Corporation (PCMC) in 2018. The approximately 105 metre high flagpole weighs 42 tonnes and the flag is made up of knitted polyester and the flag itself weighs 90kg and can sustain winds up to 25km per hour. The height of the flag is shown in the picture as PQ and the distance between the foot of the flagpole Q and a point R on the ground is 208m. The value of cos R is

The circuit diagram given in the figure shown the experimental setup for the measurement of unknown resistance by using a metre bridge. The wire connected between the points P and Q(PQ = 100 cm) has uniform cross-sectional area and its resistivity is directly proportional to the distance from point P. Null point is obtained with the jockey J with R_1 and R_2 in the gaps. If R_1 and R_2 are interchanged, the jockey has to be displaced through a distance from the previous position along the wire to establish the null point. If the ratio of R_1/R_2=3 , the value of Delta (in cm) is: [Ignore any end corrections]

A vessel ABCD of 10 cm width has two small slits S_(1) and S_(2) sealed with idebtical glass plates of equal thickness. The distance between the slits is 0.8 mm . POQ is the line perpendicular to the plane AB and passing through O, the middle point of S_(1) and S_(2) . A monochromatic light source is kept at S, 40 cm below P and 2 m from the vessel, to illuminate the slits as shown in the figure. Calculate the position of the central bright fringe on the other wall CD with respect of the line OQ . Now, a liquid is poured into the vessel and filled up to OQ . The central bright fringe is fiund to be at Q. Calculate the refractive index of the liquid.

When an object moves through a fluid, as when a ball falls through air or a glass sphere falls through water te fluid exerts a viscous foce F on the object this force tends to slow the object for a small sphere of radius r moving is given by stoke's law, F_(w)=6pietarv . in this formula eta in the coefficient of viscosity of the fluid which is the proportionality constant that determines how much tangential force is required to move a fluid layer at a constant speed v, when the layer has an area A and is located a perpendicular distance z from and immobile surface. the magnitude of the force is given by F=etaAv//z . For a viscous fluid to move from location 2 to location 1 along 2 must exceed that at location 1, poiseuilles's law given the volumes flow rate Q that results from such a pressure difference P_(2)-P_(1) . The flow rate of expressed by the formula Q=(piR^(4)(P_(2)-P_(1)))/(8etaL) poiseuille's law remains valid as long as the fluid flow is laminar. For a sfficiently high speed however the flow becomes turbulent flow is laminar as long as the reynolds number is less than approximately 2000. This number is given by the formula R_(e)=(2overline(v)rhoR)/(eta) In which overline(v) is the average speed rho is the density eta is the coefficient of viscosity of the fluid and R is the radius of the pipe. Take the density of water to be rho=1000kg//m^(3) Q. Blood vessel is 0.10 m in length and has a radius of 1.5xx10^(-2) m blood flows at rate of 10^(-7)m^(3)//s through this vessel. The pressure difference that must be maintained in this flow between the two ends of the vessel is 20 Pa what is the viscosity sufficient of blood?

Two long parallel wires carrying current 2.5 amperes and I ampere in the same direction ( directed into the plane of the paper) are held at P and Q respectively such that they are perpendicular to the plane of paper. The points P and Q are located at a distance of 5 metres and 2 metres respectively from a collinear point R ( see figure) (i) An electron moving with a velocity of 4xx10^(5) m//s along the positive x- direction experiences a force of magnitude 3.2xx10^(-20) N at the point R . Find the value of I . (ii) Find all the positions at which a third long parallel wire carrying a current of magnitude 2.5 amperes may be placed so that the magnetic induction at R is zero.

A vessel ABCD of 10 cm width has two small slits s1 and S2 sealed, with identical glass plates of equal thickness. The distance between the slits is 0.8. mm. POQ is the line perpendicular to the plane AB and passing through O, the middle point of S1 and S2. A monochromatic light source is kept al S. 40 cm below P and 2m from the vessel, to illuminate the slits as shown in the figure below. 40cm Calculate the position of the central bright fringe on the other wall CD with respect to the line OQ. Now, a liquid is poured into the vessel and filled up to-OQ. The central bright fringe is found to be at Q. Calculate the refractive index of the liquid