Maximum Velocity Calculator

Maximum Velocity Calculator:

Enter the values of mass, m_(kg), acceleration, a_(m/s2), fluid density, ρ_(kg/m3), cross-sectional area, A_(m2) and drag coefficient, C to determine the value of maximum velocity, V_max(m/s).

Enter Mass :		kg
Enter Acceleration :		m/s2
Enter Fluid Density :		kg/m3
Enter Cross-Sectional Area :		m2
Enter Drag Coefficient :
Result – Maximum Velocity :		m/s

Maximum Velocity Formula:

Maximum velocity is the highest speed that an object can reach under specific conditions without further acceleration, typically due to balancing forces like drag against propulsion forces.

Maximum velocity, V_max(m/s)in metres per seconds is calculated by taking the square root of twice the product of mass, m_(kg) in kilograms and acceleration, a_(m/s2)in metres per second squared divided by the product of the fluid density, ρ_(kg/m3), cross-sectional area, A_(m2) and drag coefficient, C.

Maximum velocity, V_max(m/s) = √( 2 * m_(kg) * a_(m/s2) / ρ_(kg/m3) * A_(m2) * C)

V_max(m/s) = maximum velocity in metres per seconds, m/s.

m_(kg) = mass in kilograms, kg.

a_(m/s2) = acceleration in metres per second squared, m/s² (9.81m/s²).

ρ_(kg/m3) = fluid density in kilograms per cubic metres, kg/m³.

A_(m2) = cross-sectional area in metres square, m².

C = drag coefficient.

Maximum Velocity Calculation:

1.Determine the maximum velocity of a cyclist with a mass of 80 kg with air density of 1.2 kg/m³, a cross-sectional area of 0.5 m², and a drag coefficient of 0.9.

Given: m_(kg) = 80kg, a_(m/s2) = 9.81m/s², ρ_(kg/m3) = 1.2kg/m³, A_(m2) = 0.5m², C = 0.9.

Maximum velocity, V_max(m/s) = √( 2 * m_(kg) * a_(m/s2) / ρ_(kg/m3) * A_(m2) * C)

V_max(m/s) = √( 2 * 80 * 9.81 / 1.2 * 0.5 * 0.9 )

V_max(m/s) = √( 1569.6 / 0.54 )

V_max(m/s) = √2906.7

V_max(m/s) = 53.9m/s.

2.Calculate the maximum velocity of a sports car with a mass of 1200 kg, accelerating at 3 m/s², facing air resistance with a fluid density of 1.225 kg/m³, a frontal cross-sectional area of 2.2 m², and maximum velocity is 97.6m/s.

Given: m_(kg) = 1200kg, a_(m/s2) = 3m/s², ρ_(kg/m3) = 1.225kg/m³, A_(m2) = 2.2m²,

V_max(m/s) = 97.6m/s.

Maximum velocity, V_max(m/s) = √( 2 * m_(kg) * a_(m/s2) / ρ_(kg/m3) * A_(m2) * C)

C = 2 * m_(kg) * a_(m/s2) / ρ_(kg/m3) * A_(m2) * V²_max(m/s)

C = 2 * 1200 * 9.81 / 1.225 * 2.2 * 97.6²

C = 7200 / 25612.23

C = 0.281.