Fine E For calculations on this page, keep 4 digits after the decimal point. A mass m = 2.5 kg is attached to the system. d) Determine the force applied to the spring. F= N. e) Determine how far the equivalent spring will stretch. Yeq m.

Need Help ! 

Transcribed Image Text:

fring Fup 1 = pomxxx m Flow 1 = For calculations on this page, keep 4 digits after the decimal point. A mass m = 2.5 kg is attached to the system. d) Determine the force applied to the spring. mo Work backwards, first to the figure on the right below, with k₁ (part a) and k2 (part b) in series. f) Find the distance each. spring will stretch with mass m attached F = e) Determine how far the equivalent spring will stretch. N Yeq = N Y₁ = N. y2 = Y₁+ y₂ = m. In the original (left) figure, each upper spring will stretch by y₁, and each lower spring stretches by y2. For the next 2 parts, calculate the magnitude of the force. g) Find the force from one upper spring, stretched by y₁, and the total force from all 3 upper springs. Fup total = m m Flow total = N h) Find the force from 1 lower spring, stretched by y2 and the total force from the 2 lower springs. டண்டண்-2 k₁ N