Two cars are travelling down a highway at 100 km/h in opposite directions. Both drivers are tired from driving all day and cross over the yellow line and hit head on. Crash! The driver of car A has remained inside the car and has broken ribs due to hitting the steering wheel. The driver of car B however is on the hood of car A and is pronounced dead at the scene, cause of death, a severe case of disobeying the laws of Although both cars were heading at the same velocity one driver ended up dead while another survived. This seems like a complicated and hard thing to explain and to the untrained person it may seem that driver A just had plain luck on his side however this is untrue. Using the knowledge of basic physics I hope to explain why the outcome for each driver was different and could have been avoided. Sir Isaac Newton was the first man to explain what happens in a collision even before automobiles were invented. He proposed the idea that an object in motion will continue in motion with the same speed and direction unless acted upon by an outside, unbalanced force. His theory is better known as the Law of Inertia. The driver of car B was not wearing a seatbelt and as a result was not connected to the body of the car. According to Newton?s first law and object, the car, and its occupants, was moving until it hit and external force, car A. When the collision occurred the car and its cargo changed its motion and direction. However because driver B wasn?t attached to his car by his seatbelt he continued with the same speed and in the same direction as the car before the collision. Driver B flew through the windshield and onto the hood of car A. The windshield and car A acted as the necessary external force needed to bring driver B to rest. Since the driver of car A was wearing his seatbelt he experienced the same state of motion and deceleration as the car and avoided major injury.
The Essay on Article or Case Law Search 2
Article or Case Law Search Obamacare (Affordable Care Act) We have all heard about Obama Care. What is Obama Care? Obama Care also known as the Affordable care Act is a nationwide health care plan that is aimed primarily to alter the American health. Obamacare primary focus is to regulate the health insurance industry create a reduction in the USA government spending on the healthcare. Does that ...
By increasing the mass of an object you increase the inertia that the object has therefore increasing the amount of force due to an increase in acceleration. Many parents often allow their children to ride in the front seat of the car unbuckled. They say that if a collision occurs that they?ll just reach over and hold the child back. If you really look at the physics behind their theory you will see that these parents are dead wrong. What is the force required to stop a 27 kg child travelling at 25 m/s? Momentum is equal to mass times velocity and impulse is equal to the change of momentum. Using the derived formula from the previous statement F * t = m * Vf – Vi we see that the force exerted on the child by the seatbelt is 1687.5 Newtons which is the equivalent of 172.4 kg. This force is only exerted on the body for the time it takes to bring the car to rest which is approximately 0.4 seconds. Using Newton?s second law that states that acceleration is directly proportional to the force and indirectly proportional to the mass we can see how the force on an adult travelling at the same speed will experience a different force than that of the child. From the formula derived from Newton?s second law, F=m*a we see that a 67.5 kg person in the same accident will experience a force of 949.95 kg for 0.4 seconds by their seatbelt.
This is a lot of force for one person. So I wonder how those parents with the unbuckled children in the front seat expect to hold back a child exerting 172.4 kg of force while they are trying to hold themselves from crashing into the windshield with Newton?s third law states that for every action there is an equal and opposite reaction force. This law help explain why a collision at low speeds is less serious than one at high speeds. If a car exerts a small force on a brick wall because its speed was low then the car and its passengers will experience a force of equal magnitude but it will be in the opposite direction. If cars of unequal mass collide the more massive car will force the smaller vehicle backwards and the smaller car will experience more force. This is due to the conservation of momentum. The Law of Conservation of Momentum states that in an isolated system the momentum before a collision is equal to the momentum after the collision, if we disregard friction. So in the example above we can see that the momentum lost by the larger car was gained by the smaller car. If two cars of equal mass collide and all the potential energy is converted back into kinetic energy after the collision then the collision is said to be elastic.
The Essay on Throwing A Football Force Ball Momentum
Throwing a football When the football travels through the air for a long pass it always follows a curved path because the force of gravity influences the movement of the ball in the vertical direction. As the ball travels up, gravity slows it down until it stops briefly at its peak height; the ball then comes down, and gravity accelerates it until it hits the ground. Projectile motion is the path ...
However if the two bodies collide and stick together and continue with the same final speed then we call it an inelastic collision. Most collisions are neither completely elastic or inelastic. The conservation of momentum is often very obvious in a collision on a slippery road where friction is very small. The Law of Conservation of Momentum holds true for collisions in two dimensions also. The total momentum of a system is equal to the vector sum of the momentum of all parts of the system. For many decades people have used the laws of physic to explain the event of car crashes. Accident reconstructionists are people who devoted their careers to using their knowledge of physics and motion along with remains from accident scenes to determine the cause of the accident and how it could have been avoided. They also work with manufacturers to come up with ways to reduce injuries that occur from car accidents. Reconsturctionists use formulas and what they know to determine masses of the vehicle, impact location, rest position, postimpact direction which can be found by studying tire marks and gouges in the road. The deceleration from impact to rest is found by looking at postimpact braking, rotation, terrain, and contact with roadside brush.
A reconstructionist?s conclusions are very useful for car engineers, manufacturers and consumers. By studying accidents they have been able to come up with new safety features to help keep a person safe in the event of a collision. As we have already seen the seatbelt allows a person to be connected to the vehicle so they can decelerate at the same speed as the car and are the single most effective safety feature in reducing fatalities. Seatbelts allow the passenger to take advantage of the cars energy absorbing design. The shoulder strap of a seatbelt stretches to allow more time for a person to slow down but they also place a tremendous force on the chest. While the seatbelt helps in most cases sometimes it isn?t good enough and the driver is injured by the steering wheel. After careful research engineers came up with airbags that in combination with a seatbelt can increase a passengers safety in a frontal collision. However airbags do not deploy in low impact collisions and roll rollovers because they would be of no help and may make matters worse. Sensors on the car detect a high rate of deceleration inside the passenger compartment and cause the airbag to deploy and within fractions of a second of being inflated it deflates.
The Essay on Child Passenger Safety Chamberlain College Of Nursing
Analysis and Application of a Clinical Practice Guideline: Child Passenger Safety Motor vehicle crashes are identified as the leading cause of death in children under 19 years of age across the United States (Sauber-Schatz, West, & Bergen, 2014). Due to the large number of child deaths that occur each year, education regarding the proper use of child passenger safety seats must be provided to ...
While inflated it prevents the head and chest of front seat occupants from striking the steering column, dashboard, and windshield. So airbags greatly reduce a person who is wearing a seatbelt and is involved in a head on collision from fatal injury. Another safety feature that is less obvious to many car buyers is crumple zones. In specific areas of an automobile engineers integrate variable grades of steel and fiberglass in the front and rear end of the car that allow the frame to buckle under stress and keep the passenger compartment intact. This redirects the energy in the collision and reduces injury. Without a crumple zone the vehicle rebounds in an elastic manner regaining nearly all it kinetic energy. The occupants of the vehicle in turn experience a force of equal and opposite direction which is very large. With a crumple zone much of the kinetic energy is transferred into heat and sound energy resulting in a much smaller force being applied to the car and its passengers. With a better crumple zone comes an increase in the time of collision which results in a large decrease in force. Other safety devices being devised are break away poles, collapsing steering wheel columns, and side airbags. Each of theses new items is being created to improve the safety of passengers by looking carefully at the physics of collisions and using Newton?s three laws of motion. I hope that this information has provided you with a better understanding of what happens in a car crash and has provided you with enough reason to obey speed limits and to wear a seatbelt at all times while moving in a vehicle because remember it?s not only the law, its the law of inertia!
The Essay on Economy Car Suv Vehicle Vehicles
Roughly ten years ago the modern, trendy vehicle of the day became the sport utility vehicle (SUV), and still the SUV craze is hitting America full force with its promising features and seemingly all-around versitality. But are these vehicles as benign as they seem? In truth, these SUV's are a major gas consumer, a waste, and a major pollutant to the environment. One of every four vehicles sold in ...