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Formula Review

Milestones Review

Density = mass ÷ volume
Boyle's Law Equation: P₁x V₁= P₂x V₂
Charles's Law Equation V₁ ÷ T₁ = V₂ ÷ T₂
Gay-Lussac's Law Equation P₁ ÷ T₁ = P₂ ÷ T₂
Speed Equation = distance ÷ time
Acceleration Equation = (Final Velocity - Starting Velocity) ÷ time
Newton's 2nd Law Equation = Force = mass x acceleration
Work Equation= Force x distance
Power Equation = Work ÷ time
Ideal Mechanical Advantage = Output Force ÷ Input Force or Resistance Force ÷ Effort Force
Kinetic Energy Equation: 1/2 (mass) x (velocity)²
Specific Heat Equation: Energy (Q) = specific heat (c) x mass (kg) x change in temp. (∆ T)
Gravitational Potential Energy = mass x height x acceleration due to gravity
Mechanical Efficiency_ Work output ÷ Work Input * 100