You can't tell that from the information given.
Plus ... the answer doesn't depend on the vehicle's mass. In principle, a battleship and a bicycle
traveling at the same speed can come to a halt in the same distance. The difference is: how much
force it takes to stop them in a given distance. (It takes more force to stop the battleship.)
In the given question, if we knew the car's initial velocity, we could calculate the force required
to stop it in 3 meters. And if we knew the force that stopped it in 3 meters, we could find the
initial velocity. But neither number is given, so all we can do as we read the question is say
"that's nice", and go on to the next question.
The speed of the vehicle before deceleration or braking.
The vehicle's reaction distance depends on the driver's reaction time.
depends how fast you are travelling
D(distance)/T(time)=V(velocity)
depends how fast you are travelling
A vehicle's momentum depends on its mass and velocity. The momentum of a vehicle is the product of its mass and its velocity. The larger the mass or velocity of a vehicle, the greater its momentum.
Assuming that the vehicle's velocity is constant, then: Distance = Velocity x Time So, given that the distance is 3 feet, you need to know the Velocity and the elapsed time. For example if the velocity is 3 feet/sec, and the Time is 1 sec, then the distance is 3 feet traveled. BUT, if the velocity is 6 feet/sec and the time is 0.5 sec, the distance is still 3 feet. So, there are an infinite number of combinations that will give the same result.
Zero velocity means that the vehicle and the person who is measuring the velocity are moving together.
The kinetic energy of a vehicle, of mass m kilograms and travelling at velocity v metres per second, is 1/2*m*v2.Using calculus, d(ke)/dv = m*v.That is, the kinetic energy (ke) increases by the product of the mass and the velocity. Whether or not that can be considered "tremendous" is another matter.The kinetic energy of a vehicle, of mass m kilograms and travelling at velocity v metres per second, is 1/2*m*v2.Using calculus, d(ke)/dv = m*v.That is, the kinetic energy (ke) increases by the product of the mass and the velocity. Whether or not that can be considered "tremendous" is another matter.The kinetic energy of a vehicle, of mass m kilograms and travelling at velocity v metres per second, is 1/2*m*v2.Using calculus, d(ke)/dv = m*v.That is, the kinetic energy (ke) increases by the product of the mass and the velocity. Whether or not that can be considered "tremendous" is another matter.The kinetic energy of a vehicle, of mass m kilograms and travelling at velocity v metres per second, is 1/2*m*v2.Using calculus, d(ke)/dv = m*v.That is, the kinetic energy (ke) increases by the product of the mass and the velocity. Whether or not that can be considered "tremendous" is another matter.
If you have a 4WD vehicle, and can avoid travelling through Tennant Creek, the distance between Mt Isa and Ayers Rock is 1115km. If you prefer to travel the main highway, through Tennant Creek (which is safer if you are travelling alone and not with other vehicles), the distance is 1607km, and should be undertaken over a minimum of two days.
4.6 meters or 15ft. is the estimated stoping distance of a vehicle travelling at 25 MPH. Thinking time and weather or not you are sober have not been taken into account.
vehicle traffic is the number of vehicles travelling on road.