Calculate `theta_(1)` and `theta_(2)` in shown situation.

Two particles of equal mass in are projected from the ground with speeds v_(1) and v_(2) at angles theta_(1) , and theta_(2) as shown in the figure. Given theta_(2)gttheta_(1) and v_(1)costheta_(1)=v_(2)costheta_(2) Which statement/s is/are correct?

The locus of the point of intersection of two tangents to the parabola y^(2)=4ax which make the angles theta_(1) and theta_(2) with the axis so that cot theta_(1)+cot theta_(2) = c is

The locus of the point of intersection of two tangents to the parabola y^(2)=4ax which make the angles theta_(1) and theta_(2) with the axis so that cot theta_(1)+cot theta_(2) = k is

Two particles of equal mass 'm' are projected from the ground with speed v_(1) and v_(2) at angles theta_(1) and theta_(2) at the same times as shown in figure. The centre of mass of the two particles.

The net field vecE due to the uniformly charged rod at P makes angles theta_(1) and theta_(2) with AP and BP respectively. Then find the value of theta_(1)//theta_(2)

The ends of a metal rod are kept at temperature theta_(1) and theta_(2) with theta_(2) gt theta_(1) . At steady state the rate of flow of heat along the rod is directly proportional to

From algebra we know that if ax^(2) +bx + c=0 , a( ne 0), b, c in R has roots alpha and beta then alpha + beta=-b/a and alpha beta = c/a . Trignometric functions sin theta and cos theta, tan theta and sec theta, " cosec " theta and cot theta obey sin^(2)theta + cos^(2)theta =1 . A linear relation in sin theta and cos theta, sec theta and tan theta or " cosec "theta and cos theta can be transformed into a quadratic equation in, say, sin theta, tan theta or cot theta respectively. And then one can apply sum and product of roots to find the desired result. Let a cos theta, b sintheta=c have two roots theta_(1) and theta_(2) . theta_(1) ne theta_(2) . The values of tan theta_(1) tan theta_(2) is (given |b| ne |c|)

The values of sintheta_(1), cos^(2)theta_(2) and tan theta_(3) are given as .^(1)//_(2), -.^(1)//_(2) and 3 (not in order), for some angles theta_(1), theta_(2) and theta_(3) . Choose incorrect statement.A

Three identical solid spheres (1, 2 and 3) are allowed to roll down from three inclined plane of angles theta_(1), theta_(2) and theta_(3) respectively starting at time t = 0, where theta_(1) gt theta_(2) gt theta_(3) , then

If theta_(1) and theta_(2) be respectively the smallest and the largest values of theta in (0, 2pi)-(pi) which satisfy the equation, 2cot^(2)theta-(5)/(sintheta)+4=0 , then int_(theta_(1))^(theta_(2))cos^(2)3thetad theta is equal to :