Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E = t1 F .ds n ∫t n mean Where: t0 is the time of first contact, t1 is the time where the trolley comes to rest, i.e. where u = 0, s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
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Samples: Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles, Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles, Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles
Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E = t1 F .ds n ∫t n mean Where: t0 is the time of first contact, t1 is the time where the trolley comes to rest, ,i.e. where u = 0, s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
Appears in 1 contract
Samples: Agreement Concerning the Adoption of Uniform Technical Prescriptions for Wheeled Vehicles
Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E = t1 F .ds n ∫t n mean Wherewhere: t0 is the time of first contact, contact t1 is the time where the trolley comes to rest, i.e. where u = 0, . s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
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Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E = t1 F .ds n ∫t n mean Where: t0 is the time of first contact, 38 t1 is the time where the trolley comes to rest, i.e. where u = 0, s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
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Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E = t1 F .ds 0 n ∫t t n mean Where: t0 is the time of first contact, t1 is the time where the trolley comes to rest, i.e. where u = 0, s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
Appears in 1 contract
Samples: Agreement Concerning the Adoption of Uniform Technical Prescriptions for Wheeled Vehicles
Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E = t1 F .ds 0 n ∫t n mean Where: t0 is the time of first contact, t1 is the time where the trolley comes to rest, ,i.e. where u = 0, s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
Appears in 1 contract
Samples: Agreement Concerning the Adoption of Uniform Technical Prescriptions for Wheeled Vehicles
Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E En = t1 1 F .ds . ds ∫ t n ∫t n t0 mean Wherewhere: t0 is the time of first contact, contact t1 is the time where the trolley comes to rest, ,i.e. where u = 0, . s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
Appears in 1 contract
Samples: Agreement Concerning the Adoption of Uniform Technical Prescriptions for Wheeled Vehicles
Calculation of energy. The absorbed energy for each block and for the whole MDB face should be calculated up to the point of peak deflection of the barrier. E = t1 F .ds n ∫t n mean Where: t0 is the time of first contact, t1 is the time where the trolley comes to rest, i.e. where u = 0, s is the deflection of the trolley deformable element calculated according to paragraph 6.6.3.
Appears in 1 contract
