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 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. 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 tan^(2)P- sec^(2)P 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

Rutherford model: The approximate size of the nucleus can be calculated by using energy conservation theorem in Rutherford's alpha -scattering experiment. If an alpha -particle is projected from infinity with speed v towards the nucleus having Z protons, then the alpha -particle which is reflected back or which is deflected by 180^@ must have approached closest to the nucleus .It can be approximated that alpha particle collides with the nucleus and gets back. Now if we apply the energy conservation equation at initial point and collision point then: (P.E.)_i= 0 , since P.E. of two charge system separated by infinite distance is zero. Finally the particle stops and then starts coming back. 1/2m_alpha v_alpha^2+0=0+(Kq_1q_2)/Rimplies 1/2m_alphav_alpha^2=K(2exxZe)/R implies R=(4KZe^2)/(m_alphav_alpha^2) Thus the radius of nucleus can be calculated using above equation. The nucleus is so small a particle that we can't define a sharp boundary for it An alpha -particle with initial speed v_0 is projected from infinity and it approaches up to r_0 distance from a nuclie. Then, the initial speed of alpha -particle, which approaches upto 2r_0 distance from the nucleus is :

Read the given passage and answer the following questions. A body is thrown vertically up with a velocity u as shown in the figure. It passes through points P and Q in its upward journey and reaches the maximum height at point R. Here (PQ)/(PR)=7/16 , OP = (2u^2)/45 , and take g=10 m//s^2 Find the velocity of the particle at point P.

Read the given passage and answer the following questions. A body is thrown vertically up with a velocity u as shown in the figure. It passes through points P and Q in its upward journey and reaches the maximum height at point R. Here (PQ)/(PR)=7/16 , OP = (2u^2)/45 , and take g=10 m//s^2 Find the time taken by the particle to reach highest point R.