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🌀 Spring-Mass System | Energy Conservation

Work, Energy & Power NEET · JEE · KCET KE + PE = Constant
🔵 Mass (m) ⬅️➡️ Spring (k) 📈 Kinetic Energy (KE) 📈 Potential Energy (PE) 📊 Total Energy (E)
T = 2π√(m/k) | ω = √(k/m) | KE_max = ½kA² | PE_max = ½kA²
Period (T)
0.00
s
Frequency (f)
0.00
Hz
ω (angular freq)
0.00
rad/s
v_max
0.00
m/s

🔋 Energy at current position

Kinetic Energy (KE)0.00 J
Spring PE (PE)0.00 J
Total Energy (E)0.00 J

📊 Oscillation Status

Oscillating
At equilibrium

🔍 What to Observe

  • Energy conservation: KE + PE = constant
  • At equilibrium (x=0): KE max, PE = 0
  • At extremes (x=±A): KE = 0, PE max
  • Period T = 2π√(m/k) independent of amplitude
  • Larger k → stiffer spring → shorter period
  • Larger m → longer period
Oscillating
x = 0.00 m