Common use of Deceleration method Clause in Contracts

Deceleration method. The rolling resistance Fr, in xxxxxx, is calculated using the equation: Where: ID is the test drum inertia in rotation, in kilogram meter squared, R is the test drum surface radius, in meter, Fpl represents the parasitic losses as calculated in paragraph 5.1.5. above, tv is the time increment chosen for measurement, in second, Δv is the test drum angular speed increment, without tyre, in radian per second, IT is the spindle, tyre and wheel inertia in rotation, in kilogram meter squared, Rr is the tyre rolling radius, in meter, Fr is the rolling resistance, in xxxxxx. or Where: ID is the test drum inertia in rotation, in kilogram meter squared, R is the test drum surface radius, in meter, Fpl represents the parasitic losses as calculated in paragraph 5.1.5. above, jV is the deceleration of the test drum, in radians per second squared, IT is the spindle, tyre and wheel inertia in rotation, in kilogram meter squared, Rr is the tyre rolling radius, in meter, Fr is the rolling resistance, in xxxxxx.

Deceleration method. The rolling resistance Fr, in xxxxxx, is calculated using the equation: Where: ID is the test drum inertia in rotation, in kilogram meter squared, R is the test drum surface radius, in meter, Fpl represents the parasitic losses as calculated in paragraph 5.1.5. above, tv is the time increment chosen for measurement, in second, Δv is the test drum angular speed increment, without tyre, in radian per second, IT is the spindle, tyre and wheel inertia in rotation, in kilogram meter squared, Rr is the tyre rolling radius, in meter, Fr is the rolling resistance, in xxxxxxnewton. or Where: ID is the test drum inertia in rotation, in kilogram meter squared, R is the test drum surface radius, in meter, Fpl represents the parasitic losses as calculated in paragraph 5.1.5. above, jV is the deceleration of the test drum, in radians per second squared, IT is the spindle, tyre and wheel inertia in rotation, in kilogram meter squared, Rr is the tyre rolling radius, in meter, Fr is the rolling resistance, in xxxxxxnewton.