Biomedical engineering without ap physics c?
im a junior in high school and i want to major in biomedical engineering. for next year i'm planning on taking ap bio, ap physics 1, and ap calc ab. im not planning on applying to highly selective schools, just traditional state schools in my state(ohio). i want to take ap physics 1 because i have no experience in physics at all so jumping into mechanics would be like asking for trouble from what ive heard. but i think regular physics is too basic so i wanna take ap physics 1. would i still be able to get into biomedicial engineering with this or is ap physics c a must??? is it still possible to get into biomedical engineering without it?
Center of mass Help!! Physics and Engineering?
In the 1968 Olympic Games, University of Oregon jumper Dick Fosbury introduced a new technique of high jumping called the "Fosbury flop." It contributed to raising the world record by about 30 cm and is presently used by nearly every world-class jumper. In this technique, the jumper goes over the bar face up while arching her back as much as possible, as shown below. This action places her center of mass outside her body, below her back. As her body goes over the bar, her center of mass passes below the bar. Because a given energy input implies a certain elevation for her center of mass, the action of arching her back means her body is higher than if her back were straight. As a model, consider the jumper as a thin, uniform rod of length L. When the rod is straight, its center of mass is at its center. Now bend the rod in a circular arc so that it subtends an angle of 94.0° at the center of the arc, as shown in Figure (b) below. In this configuration, how far outside the rod is the center of mass? The answer should be a multiple of L. (....*L). I cant seem to figure it out, I have no clue what I am doing wrong. Thank you very much in advanced please provide a real number answer with work. Thank you!!!
How can I jump to a career on Quantum Physics from an engineering background?
Fantastic! You have found your interest while in undergraduate course. That's incredible. Most of us have not been able to figure out even after Masters. :-)Answering your question. I will tell you what one of my friends did. He is from Egypt. I am from India. He was my classmate during my graduate study in Germany. Both of us had undergrad degrees in Electronics and Communications Engineering.In Germany, and in many Western education systems the curriculum is extremely flexible. We were enrolled in Masters in Electrical Engineering prog. However, the curriculum had only a limited number of mandatory track specific courses every semester. Rest of the courses and credits were in our hands to choose from multiple choices within departments and even outside the department.He chose courses in Physics department unlike all of us who took courses from Electrical Engineering. All his electives were in specific area of physics. He also took HiWi, commonly known as RA in the USA, in the physics department which further helped him. He continued with his Master thesis as well in Physics department. Though he received a MSc degree in Electrical Engineering, due to the choices he made he got a PhD in the Physics department. Bam!He just finished his PhD and started working as a researcher in one of the small research facility of a private company in Europe.No bad game plan. Eh?All the best! I hope this helps. :-)
Which games teach engineering and physics principles?
I'm not sure about the principles of engineering and physics. But if you want games that push your thinking and logic, these are the games to go for.1. Cargo-Bot (iPad)The goal of this game is quite simple, rearrange a series of boxes. However, you have to create the most efficient algorithm to do this. For anyone interested in programming or just logical thinking, this is the game to play.2. Portal 1 & 2 (PC, Mac, several consoles)The game primarily comprises a series of puzzles that must be solved by teleporting the player's character and simple objects. The laws of physics have to be used sometimes (for example, jumping into a portal and direct yourself outward with the same acceleration). Anyways, you'll understand and love it a lot more once you start playing.
College General Physics Kinematics?
A motorcycle daredevil wants to set a record for jumping over burning school buses. He has hired you to help with the design. He intends to ride off a horizontal platform at 40m/s, cross the burning buses in a pit below him, then land on a ramp sloping down at 20degrees. It's very important that he not bounce when he hits the landing ramp because that could cause him to lose control and crash. You immediately recognize that he won't bounce if his velocity is parallel to the ramp as he touches down. This can be accomplished if the ramp is tangent to his trajectory and if he lands right on the front edge of the ramp. There's no room for error! Your task is to determine where to place the landing ramp. That is, how far from the edge of the launching platform should the front edge of the landing ramp be horizontally and how far below it? There's a clause in your contract that requires you to test your design before the hero goes on national television to set the record.
I am Engineering graduate, I want to pursue PhD in Theoretical Physics. What strategy should use?
Jumping straight into postgraduate physics would be challenging. You might be able to cope with the thermodynamics (depending on your engineering major and whether statistical mechanics will come naturally to you or not), but your knowledge of mathematics, relativity, quantum mechanics, fields, particle physics, dynamics (e.g. Lagrangians, Hamiltonians), and experimental design is probably substantially incomplete.On the other hand, it would be excessive if you had to take an entire undergraduate degree in physics from scratch given your existing scientific training, and the first year would pretty much be a waste of your time.Speak to the relevant faculties at the college you want to attend. If you can retrospectively transfer into a dual degree of Engineering / Physics, that may cut down on the number of physics courses you need to take before postgraduate study. There may also be other bridging courses or mechanisms available.
How can I jump into sales from a physics background in Greece?
Gradually start to scope into sales.If you are working somewhere with a sales department:Try to gain knowledge about that department, and what they do, what challenges do they face, etc.Make friends and connections with those in the sales department.Whenever possible offer to help your colleagues in the sales department.Ask for courses or books to learn sales.Ask your manager for a sales related position.When you have enough experience consider career shifting.If you don’t have a sales department:Reach out for your friends who work in sales.Ask for courses or books to learn sales.When you have enough experience consider career shifting.
What are good books for engineering students or students interested in engineering, specifically physics based engineering?
At the core of every engineering specialty is science and math which by the way is really just a tool for working with the laws of nature. In fact engineering is essentially nothing more than applied physics, chemistry, and math. There is nothing better for learning engineering physics than the textbooks assigned to your engineering courses.
Does mechanical engineering really need to study engineering Physics in first year?
There's certainly a reasosn it's in your curriculum at this point. Is there a reason you don't think you should take it yet, or are you having some difficulty?Someday, you'll be designing Things, or maybe analyzing Things. Things could include a robot, the next phone (or whatever replaces phones), bicycles, valves, factory equipment—you name it.You may have some ability to prototype and test these Things, but it will be your job as an engineer to predict, control, and optimize how they're going to operate, so that you can make intelligent tradeoffs and get these Things to market within deadlines and budgets.Your first term of physics is your best introduction to how the kinds of Things behave which are of interest to mechanical engineers. Newtonian physics is the mechanics of Things like baseballs and springs, and pulleys and levers and gears, plus gravity. They may look diagrammatic and perhaps abstract to you on paper, but your bicycle and your dishwasher are made up of exactly these sorts of Things. First-year physics is also your first good look at how to solve the sorts of problems you'll be asked to deal with a lot during your schooling. Learn about forces and momentum and conservation of energy, and you learn the basics that you will take with you into statics and dynamics, thermodynamics, strength of materials, and so on.