Vehicle Technology & Trends
Krutarth Arora | Vehicle Trends & Technology | October 5, 2016 Preface
The vehicle of the future will be significantly different than what we have seen since the advent of motorized vehicles; technology shrinking the size of components, increase power requirements, improved fuel economy, lower carbon emissions, exploring alternate forms of fuel, improving convenience, reducing errors and accidents will be some of the factors that will contribute to how the vehicle of the future will work and look like. A lot of manufacturers are investing in pioneering technologies, and produce prototype or “Concept Cars” that primarily are used to gauge the feasibility of an idea. In the subsequent sections we will discuss the Trends and Opportunities of future vehicles by looking at some of the concept cars and their designs.
Content Trends and Opportunities
Body Design
Design of the cars in mid 70s was generally a large frame, with box like structures, this was primarily to show off the car as a large and powerful machine, fuel efficiency was not a concern, hence the car manufacturers let their imaginations runs, giving us a pretty versatile range of designs from that era. Today as we work towards more fuel efficiency, and achieving higher top speeds, the designs of most car models will converge towards a single; more aerodynamic design.
Four years from now, vehicles emerging from the world 's design studios will be more aerodynamic -- and more
There are more than 253 Million cars and trucks in the U.S at this moment. That sounds like a lot but really it isn’t that many. For every 1.3 cars or trucks there is only one person in the United States. With this many cars and trucks in the U.S. there is bound to be some controversy about which one is better. Many people may prefer trucks over cars and in vice versa. They both have their advantages and disadvantages. While trucks are better at hauling or towing things, cars have better gas mileage and can hold more people.
Machines running, hammers dropping, and drills drilling are the sounds of Henry Ford’s revolutionary assembly line. Henry Ford grew up in the late eighteenth century during the industrial revolution. There were no electric lights, only gas lamps and candles. Horses and trains were the only cost effective way of transportation for the public. When Henry Ford was a child, he saw a steam driven car on the road and was mesmerized. At this point, he knew he longed to become a mechanic that works on cars. At the age of sixteen, Henry Ford got a job as an apprentice machinist in Detroit at the Detroit Dry Dock Company. Three years later he returned to work on the family farm, and became adept at operating the
Cars are something that almost every person has or will use in their everyday life or need to use their car to get to and from work or school everyday. Well in this paper you will learn about what technology has done to change the Automotive Industry as well as your everyday life. This paper will be focusing on the Technologies inside of the car, along with the Technologies that keep you safe and also a little bit about Self-Driving Cars. So fasten your seatbelts while you are reading this paper.
Although some people believe that automobiles have not really changed over time, automobiles have changed an extraordinary amount over the past one hundred years,a plethora of things have changed such as the design of the engine from 1964 to now, the impact of the automobile, and the use of the automobile. There are now over 50 types of engines which include v8s, v6s and 4 cylinders. Over 70 million cars were produced in 2016 alone (worldometers.info). We have reached this milestone by innovating and inventing the technology we use to create these modern automobiles.
“The most powerful and fastest muscle car. Ever.” (Dodge) The Dodge Challenger Hellcat is the rarest and technologically advanced car in the Challenger family. The Supercharged 6.2 SRT Hellcat HEMI V8 is as intimidating as it sounds. The car has a 707 horsepower engine; it has the capability to beat a Lamborghini Huracan. Since this car holds so much power, it is also very rare. As of April 3rd 2016, there is not one Dodge Challenger for sale within 300 miles of Concord, California (Dodge online store). The purpose of my project is to learn about how the interior mechanics affects the exterior design of the car. To make this paper more personal I had to choose the 2016 Dodge Challenger 392 HEMI Scat Pack Shaker also known as the Shaker. This
Do you want your vehicle to reach a higher top speed than expected, but do not know what enhancements to use for it to be done safely? Although there are many upgrades that can improve speed, you also need to improve down force and weight reduction to reach maximum potential. If the three of these are not done, then when reaching high speeds the vehicle may flip because it does not have the proper down force it needs to hold it to the ground. When the car has too much weight it could keep it from reaching the highest possible speed it can handle. So how can we first improve speed?
The purpose of this paper is to illustrate three technology opportunities associated with the transportation and logistics industry. With today’s constantly evolving business environment, consumers are placing demand on businesses of all industries, and they want products and services faster, with more added value, and delivered immediately. Nevertheless, customers are smarter by requiring more quality, innovation, and choice, and at the same time wanting to spend less money and effort. Consequently, every transportation business has to remain highly competitive in researching and developing innovative cost-cutting techniques in order to save money.
Hybrid cars are built on the advantages of both combustion engine cars and battery-powered electric motor cars, and the hybrid cars will be an alternative to combustion engine cars until next step technologies such as fully electric vehicles or fuel-cell powered vehicles will take over. This article supports the ideas shown in the main source through hybrid vehicle technology.
The article “The Gas-Electric Hybrid Demystified” by Sara R. Howerth, gives the reader some insight on the new developed technology of hybrid cars. The author uses the difference between four engine models; Gas-Engine, Battery Powered Electric, Hybrid model #1 and Hybrid model #2 – to show just how far technology has come and to say that this is only just the beginning. The engine will keep evolving as long as our natural resources continue to diminish and our need for them increases.
Living in a rapidly moving world we struggle not to be left behind, and for this reason, the personal vehicles play a significant role in our lives. Today, in order to make it, we have to be mobile and effective and our vehicle is able to help us get quickly from one point to another. The independence and comfort that a car bestows make us dependant on it, so it is in our best interests to take good care of it. There are certain things you need to do to make sure your car is in top shape. One of these things concerns a regular change of oil. As the miles accumulate, engine oil begins to degrade, losing viscosity and the ability to suspend dirt and contaminants. Fuel thins the oil and affects its lubricating effectiveness, while moisture enables
Electric cars are becoming very popular in today’s world and are becoming more main stream. One reason for this is the need for automobiles that have a lower or a zero carbon footprint. For the majority of the history of the automobile, the propulsion system was a gas or a diesel engine that would run off of fossil fuels. The burning of fossil fuels is very hazardous to our world and also creates much toxic pollution. However, electric cars run off of electricity, which is a very clean and pollution free resource, depending on how the electricity was produced of course. In this paper we are going to examine the history of electric cars, look into modern electric car technology, and peer into the future of electric car technology to see if EVs might be the answer to dramatically reducing our global pollution.
Things have changes significantly since the early days of the automobile. What was once relative simple machinery (seen from today's point of view), it has developed to become a very complex system that makes a car what it is.
Technology has been advancing since the turn of the century at an unparalleled pace with the constant announcement of new gadgets and innovations. Of the thousands of new technological advancements made in the past decade, the introduction of the electric car has been the most widely discussed topic. Electric cars are one hundred percent emission free and can replace the fire spitting, bone chilling sounds of a thunderous gasoline engine with the eloquent silence of luxury and speed. However, as with all things technological, electric vehicles have their problems. Electric cars have several benefits and could possibly replace gas cars in the future, but they are not refined enough to take over the world today because of a few technicalities
“The pace of our development and introduction of new and improved vehicles depends on our ability to implement successfully improved technological innovations in design, engineering, and manufacturing, which requires extensive capital investment.” Page 27
A number of hybrid vehicles have been built and tested since 1980. Some of these vehicles have impressed analysts with their performance and low levels of exhaust and petroleum consumption. Interest in hybrid vehicles jumped in late 1993 with the announcement of funding for