Time of Occupant to Stop after Contacting Interiors during Collision Calculator

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Vehicle Collision

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Front Axle and Steering

Race Car Vehicle Dynamics

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Final Velocity

Momentum

✖Stopping Distance of Occupant is defined as the distance covered by occupant from the time the vehicle crashes to the time it comes to rest after collision.ⓘ Stopping Distance of Occupant [δ_occ]			+10% -10%
✖Constant Deceleration of Vehicle is defined as the gradual deceleration of the vehicle at any time after its collision with a static block.ⓘ Constant Deceleration of Vehicle [A_v]			+10% -10%

✖Time of Occupant to Stop is defined as the time taken for the occupant to come to a stop after the collision of the vehicle.ⓘ Time of Occupant to Stop after Contacting Interiors during Collision [T_c]

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Time of Occupant to Stop after Contacting Interiors during Collision

Formula

`"T"_{"c"} = sqrt((2*"δ"_{"occ"})/"A"_{"v"})`

Example

`"0.046253s"=sqrt((2*"0.215m")/"201m/s²")`

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Time of Occupant to Stop after Contacting Interiors during Collision Solution

STEP 0: Pre-Calculation Summary

Formula Used

Time of Occupant to Stop = sqrt((2*Stopping Distance of Occupant)/Constant Deceleration of Vehicle)
T_c = sqrt((2*δ_occ)/A_v)
This formula uses 1 Functions, 3 Variables

Functions Used

sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)

Variables Used

Time of Occupant to Stop - (Measured in Second) - Time of Occupant to Stop is defined as the time taken for the occupant to come to a stop after the collision of the vehicle.
Stopping Distance of Occupant - (Measured in Meter) - Stopping Distance of Occupant is defined as the distance covered by occupant from the time the vehicle crashes to the time it comes to rest after collision.
Constant Deceleration of Vehicle - (Measured in Meter per Square Second) - Constant Deceleration of Vehicle is defined as the gradual deceleration of the vehicle at any time after its collision with a static block.

STEP 1: Convert Input(s) to Base Unit

Stopping Distance of Occupant: 0.215 Meter --> 0.215 Meter No Conversion Required
Constant Deceleration of Vehicle: 201 Meter per Square Second --> 201 Meter per Square Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T_c = sqrt((2*δ_occ)/A_v) --> sqrt((2*0.215)/201)

Evaluating ... ...

T_c = 0.0462526051437869

STEP 3: Convert Result to Output's Unit

0.0462526051437869 Second --> No Conversion Required

FINAL ANSWER

0.0462526051437869 ≈ 0.046253 Second <-- Time of Occupant to Stop

(Calculation completed in 00.007 seconds)

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Created by Syed Adnan

Ramaiah University of Applied Sciences (RUAS), bangalore

Syed Adnan has created this Calculator and 200+ more calculators!

Verified by Kartikay Pandit

National Institute Of Technology (NIT), Hamirpur

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< 13 Vehicle Collision Calculators

Kinetic Energy after Collision of Vehicles

Go Kinetic Energy after Collision of Vehicles = (Mass of First Vehicle before Collision/(Mass of First Vehicle before Collision+Mass of Second Vehicle before Collision))*Kinetic Energy before Collision of Vehicles

Velocity of Occupant with Respect to Vehicle after Collision

Go Relative Velocity of Occupant after Collision = Initial Velocity before Collision*sqrt(Stopping Distance of Occupant/Stopping Distance of Vehicle)

Magnitude of Resultant Final Velocity after Collision of Two Vehicles

Go Magnitude of Resultant Final Velocity = sqrt(Final Velocity after Collision in X-Direction^2+Final Velocity after Collision in Y-Direction^2)

Direction of Final Velocity of Vehicles after Collision

Go Direction of Final Velocity = atan(Final Velocity after Collision in Y-Direction/Final Velocity after Collision in X-Direction)

Impact Force on Vehicle after Crash

Go Impact Force on Vehicle after Crash = (0.5*Vehicle Mass*Forward Velocity of Vehicle^2)/(Stopping Distance of Vehicle)

Total Momentum in y-Direction before Collision of Two Vehicles

Go Total Momentum in Y-Direction before Collision = Momentum of First Car before Collision in Y-Dir+Momentum of Second Car before Collision in Y-Dir

Acceleration of Airbag

Go Acceleration of Airbag = (Final Velocity of Airbag^2-Initial Velocity of Airbag^2)/(2*Distance Traveled by Airbag)

Total Momentum in x-Direction before Collision of Two Vehicles

Go Total Momentum in X-Direction before Collision = Total Momentum of First Vehicle in X-Direction+Total Momentum Second Vehicle in X-Direction

Time of Occupant to Stop after Contacting Interiors during Collision

Go Time of Occupant to Stop = sqrt((2*Stopping Distance of Occupant)/Constant Deceleration of Vehicle)

Constant Deceleration of Vehicle during Collision

Go Constant Deceleration of Vehicle = 0.5*(Initial Velocity before Collision^2)/Stopping Distance of Vehicle

Stopping Distance of Vehicle after Collision

Go Stopping Distance of Vehicle = 0.5*Initial Velocity before Collision*Stopping Time of Vehicle

Stopping Time of Vehicle after Collision

Go Stopping Time of Vehicle = Initial Velocity before Collision/Constant Deceleration of Vehicle

Force Exerted on Airbag after Collision

Go Force Exerted on Airbag = Mass of Airbag*Acceleration of Airbag

Time of Occupant to Stop after Contacting Interiors during Collision Formula

Time of Occupant to Stop = sqrt((2*Stopping Distance of Occupant)/Constant Deceleration of Vehicle)
T_c = sqrt((2*δ_occ)/A_v)

What do you mean by stopping time of occupant during collision of vehicle?

Time of occupant to stop is defined as the time taken for the occupant to come to a stop after the collision of the vehicle. It depends upon the stopping distance of the occupant after collision and the constant deceleration of vehicle associated with it.

How to Calculate Time of Occupant to Stop after Contacting Interiors during Collision?

Time of Occupant to Stop after Contacting Interiors during Collision calculator uses Time of Occupant to Stop = sqrt((2*Stopping Distance of Occupant)/Constant Deceleration of Vehicle) to calculate the Time of Occupant to Stop, The Time of occupant to stop after contacting interiors during collision formula is defined as the time taken for the occupant to come to a rest after the vehicle has collided with a static obstacle. Time of Occupant to Stop is denoted by T_c symbol.

How to calculate Time of Occupant to Stop after Contacting Interiors during Collision using this online calculator? To use this online calculator for Time of Occupant to Stop after Contacting Interiors during Collision, enter Stopping Distance of Occupant (δ_occ) & Constant Deceleration of Vehicle (A_v) and hit the calculate button. Here is how the Time of Occupant to Stop after Contacting Interiors during Collision calculation can be explained with given input values -> 0.046253 = sqrt((2*0.215)/201).

FAQ

What is Time of Occupant to Stop after Contacting Interiors during Collision?

The Time of occupant to stop after contacting interiors during collision formula is defined as the time taken for the occupant to come to a rest after the vehicle has collided with a static obstacle and is represented as T_c = sqrt((2*δ_occ)/A_v) or Time of Occupant to Stop = sqrt((2*Stopping Distance of Occupant)/Constant Deceleration of Vehicle). Stopping Distance of Occupant is defined as the distance covered by occupant from the time the vehicle crashes to the time it comes to rest after collision & Constant Deceleration of Vehicle is defined as the gradual deceleration of the vehicle at any time after its collision with a static block.

How to calculate Time of Occupant to Stop after Contacting Interiors during Collision?

The Time of occupant to stop after contacting interiors during collision formula is defined as the time taken for the occupant to come to a rest after the vehicle has collided with a static obstacle is calculated using Time of Occupant to Stop = sqrt((2*Stopping Distance of Occupant)/Constant Deceleration of Vehicle). To calculate Time of Occupant to Stop after Contacting Interiors during Collision, you need Stopping Distance of Occupant (δ_occ) & Constant Deceleration of Vehicle (A_v). With our tool, you need to enter the respective value for Stopping Distance of Occupant & Constant Deceleration of Vehicle and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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