The following figure shows a particle of mass, `m`, attached with four identical springs, each of length `l`. Initial tension in each spring is `F_(0)`. The period of small oscillations of the particle along a line perpendicular to the plane of the figure is (neglect gravity)

Figure shows a particle mass m = 100g attaches with four identical spring , each of length l = 10 cm . Initial tension in each spring is F_(0) = 25 N . Neglecting gravity , Calculate the period of small oscillation of the particle along a line perpendicular to the plane of the figure .

figure shown a partical mass m = 100g attaches with four identical spring , each of length l = 10 cm . Initial tension in each spring is F_(0) = 25 N . Neglecting gravity , Calculate the period of small oscillation of the article along a line perpendicular to the plane of the figure .

figure shown a partical mass m = 100g attaches with four identical spring , each of length l = 10 cm . Initical tension in each spring is F_(0) = 25 N . Neglecting gravity , Calculate the period of small obscillation of the article along a line perpenducular to the plane of the figure .

A particle of mass m is attached to three identical massless springs of spring constant 'k' as shown in the figure. The time period of vertical oscillation of the particle is

A particle of mass m is attached to three identical springs of spring constant k as shwon in figure. The time period of vertical oscillation of the particle is

Two indentical particles each of mass 0.5 kg are interconnected by a light spring of stiffness 100 N/m, time period of small oscillation is

Two identical particles each of mass 0.5kg are interconnected by a light springs of stiffness 100N//m , time period of small oscillation is ….

A particle of mass 'm' is attached to three identical springs A,B and C each of force constant 'K' as shown in figure. If the particle of mass 'm' is pushed slightly against the spring 'A' and released the period of oscillations is