Deceleration method Clause Samples

Deceleration method. The rolling resistance Fr, in ▇▇▇▇▇▇, 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 ▇▇▇▇▇▇. 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 ▇▇▇▇▇▇.
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Deceleration method. The deceleration method follows the procedure below: (a) Remove the tyre from the test surface while running at a speed greater than test speed; (b) Record the deceleration of the test drum D0/ t and that of the unloaded tyre T0/ t or record the deceleration of the test drum jD0 and that of the unloaded tyre jT0 in exact or approximate form in accordance with paragraph 3.5. above. The speed range for measurement includes the test speed and does not exceed 10 km/h above and 10 km/h below the test speed.
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Deceleration method. The deceleration method follows the procedure below: (a) Remove the tyre from the test surface; (b) Record the deceleration of the test drum Do/ t and that of the unloaded tyre T0/ t or record the deceleration of the test drum jD0 and that of the unloaded tyre jT0 in exact or approximate form in accordance with paragraph 3.5. above.
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Deceleration method. The rolling resistance Fr, in newton, is c▇▇▇▇▇▇ted using the equation: F = I D ⎛ Δων ⎞ + RI T ⎛ Δ ων ⎞ −F r R ⎜ Δt ν ⎟ R 2 ⎜ Δt ν ⎟ pl Where: ⎝ ⎠ r ⎝ ⎠ ID is the test drum inertia in rotation, in kilogram metre squared, R is the test drum surface radius, in meter, Fpl represents the parasitic losses as calculated in paragraph 5.1.5., Δtv is the time increment chosen for measurement, in second, ∆ωv 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 metre squared, Rr is the tyre rolling radius, in metre, Fr is the rolling resistance, in newton.
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Deceleration method. The rolling resistance Fr, in ▇▇▇▇▇▇, is calculated using the equation: ID  ωV  R  IT  ωV     R  tV  R r 2  tV   Fpl  Where: ID is the test drum inertia in rotation, in kilogram meter squared,
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Deceleration method. The rolling resistance Fr, in ▇▇▇▇▇▇, is calculated using the equation: ID  ωV  RIT  ωV     R  t V  R r 2  t V   Fpl 
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Deceleration method. The rolling resistance Fr, in newtons, is calculated using the equation: ID ⎛ ΔωV ⎞ R × IT ⎛ ΔωV ⎞ Fr = ⎜ ⎟ + R ⎝ ΔtV ⎠ ⎜ R r 2 ⎝ ΔtV ⎟ − Fpl ⎠ Where: ID is the test drum inertia in rotation, in kilogram metres squared, R is the test drum surface radius, in metres, Fpl represents the parasitic losses as calculated in paragraph 5.1.5. above, Δtv is the time increment chosen for measurement, in seconds, Δωv is the test drum angular speed increment, without tyre, in radians per second, IT is the spindle, tyre and wheel inertia in rotation, in kilogram metres squared, Rr is the tyre rolling radius, in metres, Fr is the rolling resistance, in newtons. or Fr = ID j R × IT + 2 r jV − Fpl Where: ID is the test drum inertia in rotation, in kilogram metres squared, R is the test drum surface radius, in metres, 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 metres squared, Rr is the tyre rolling radius, in metres, Fr is the rolling resistance, in newtons.
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Related to Deceleration method

  • Acceleration, Etc Upon the occurrence of any Event of Default described in the foregoing Section 10.1(e) or 10.1(f), the Loan shall automatically and immediately terminate and the unpaid principal amount of and any and all accrued interest on the Loan shall automatically become immediately due and payable, with all additional interest from time to time accrued thereon and without presentment, demand or protest or other requirements of any kind (including, without limitation, valuation and appraisement, diligence, presentment, notice of intent to demand or accelerate or notice of acceleration), all of which are hereby expressly waived by Borrower, and the obligations of Lender to make any further disbursement of the Loan shall thereupon terminate; and upon the occurrence and during the continuance of any other Event of Default, Lender may, by written notice to Borrower, (i) declare that the Loan is terminated, whereupon the Loan and the obligation of Lender to make any further disbursement of the Loan shall immediately terminate, and/or (ii) declare the unpaid principal amount of, any and all accrued and unpaid interest on the Loan and all of the other Obligations to be, and the same shall thereupon be, immediately due and payable with all additional interest from time to time accrued thereon and without presentment, demand, or protest or other requirements of any kind (including without limitation, valuation and appraisement, diligence, presentment, notice of intent to demand or accelerate and of acceleration), all of which are hereby expressly waived by Borrower. Without limiting Lender’s authority hereunder, on or after the Maturity Date, Lender may exercise any or all rights and remedies under the Loan Documents or applicable law, including, without limitation, foreclosure upon the Property or any additional collateral.

  • Termination of Multiple REMICs If the REMIC Administrator makes two or more separate REMIC elections, the applicable REMIC shall be terminated on the earlier of the Final Distribution Date and the date on which it is deemed to receive the last deemed distributions on the related Uncertificated REMIC Regular Interests and the last distribution due on the Certificates is made.

  • Cross-Acceleration Any Financial Indebtedness of any Group Company is not paid when due as extended by any originally applicable grace period, or is declared to be due and payable prior to its specified maturity as a result of an event of default (however described), provided that no Event of Default will occur under this Clause 15.4 if the aggregate amount of Financial Indebtedness is less than SEK 5,000,000 and provided that it does not apply to any Financial Indebtedness owed to a Group Company.

  • Optional Acceleration Subject to Section 7.03, if an Event of Default (other than an Event of Default set forth in Section 7.01(A)(ix) or 7.01(A)(x) with respect to the Company and not solely with respect to a Significant Subsidiary of the Company) occurs and is continuing, then the Trustee, by notice to the Company, or Holders of at least twenty five percent (25%) of the aggregate principal amount of Notes then outstanding, by notice to the Company and the Trustee, may declare the principal amount of, and all accrued and unpaid interest on, all of the Notes then outstanding to become due and payable immediately.

  • Termination Due to Death, Disability or Retirement In the event the Optionee’s employment with the Company and all Subsidiaries is terminated by reason of death, Disability or Retirement, this Option will remain exercisable, to the extent exercisable as of the date of such termination, for a period of one year after such termination (but in no event after the Time of Termination).