With the fewest vehicles around you is the answer.
Simply put, the central seat is farthest from the impact of a collision and farthest from the airbag. The National Highway Traffic Safety Administration (NHTSA) recommends that all children under the age of 13 ride in the backseat, ideally in the center.
Assuming passengers fasten their children's seat belts, child seats, or booster cushions, the rear center seat is currently the safest seat in the car.
But as vehicle safety technology continues to improve, this ancient wisdom is beginning to change. According to the New York Times, in past model year cars, experts now recommend sitting in the front seats for adults over the age of 55 if they want the safest place.
Learn more about safest position here:brainly.com/question/2302374
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Radical criminology and peacemaking criminology
Answer: The statement about New Federalism that is not true is the last one: "<u>President Reagan was able to promote new federalism consistently throughout his administration".</u>
Explanation: New Federalism was a plan launched by Robert Nixon during his presidency, which extended from 1969 until 1974, and continued by President Reagan. However, <u>Reagan's proposals</u> within this plan <u>were not as successful as Nixon's</u>. Moreover, <u>some of Reagan's proposals were not even implemented since they went against another programs or against the interests of particular groups</u>. In that way, it cannot be said that President Reagan was able to promote new federalism in a consistent way; therefore, the last statement provided is false.
Answer:
In simple words, The exploitation of consistency influenced quite well how frequently children became able to halt fulfillment and how longer the fulfillment could be postponed.
By contrast, atmosphere manipulation doubled waiting periods in the stable situation and cut in half the period in the inaccurate scenario. Earlier studies which examined the impact of learning waiting techniques to children reported fewer results, the authors claim.
Answer:
Translational Inertia = ma, where "m" is the mass, and "a" is the acceleration of the object. Calculate the rotational inertia or the moment of inertia by multiplying the mass of the object with square of the distance between the object and the axis, the radius of rotation.
Explanation:
