Determine the tension `T_(1)` and `T_(2)` in the strings

The length of a metal wire is l_(1) when the tension in it is T_(1) and is l_(2) when the tension is T_(2) . The natural length of the wire is:

As shown in the diagram three masssesm 3m and 5m connected together lie on a frictionless horizontal surface and pulled to the left by a force f the tension T_(1) in the first sting is 24 N find (i) acceleartion of the system (ii) tension in the second string and (iii) force f

The length of a metal wire is l_1 when the tension in it is T_1 and is l_2 when the tension is T_2 . The natural length of the wire is

Prove that the point of intersection of the tangents at t_(1) and t_(2) on the parabola y^(2) = 4ax is (at1t2,a(t1+t2))

A cylinder of mass m is suspended through two strings wrapped around it as shwon in figure . Find a. the tension T in the string and b. the speed o the cylinder as it falls through a distance h.

The transverse displacement of a string (clamped at its both ends) is given by y(x, t) = 0.06 sin ((2 pi)/(3) x) cos (120 pi t) where x and y are in m and t in s. The length of the string is 1.5 m and its mass is 3.0 xx 10^(-2) kg . Answer the following : (a) Does the function represent a travelling wave or a stationary wave? (b) Interpret the wave as a superposition of two waves travelling in opposite directions. What is the wavelength, frequency , and speed of each wave ? (c ) Determine the tension in the string.

If T_0,T_1, T_2,.....T_n represent the terms in the expansion of (x+a)^n , then find the value of (T_0-T_2+T_4-....)^2+(T_1-T_3+T_5-.....)^2n in Ndot