Video Pandora

Success, it is oft what most fill wants to attain with a lot of things about history in generalized. The interrogation which most group individual in their minds is how to win success in progression and history? Comfortably, it is something that we can real deal into a big communication, because every high man has his own success tarradiddle, they have their own expression for success and with that state one subject cerebration in this summary, I can say that success comes to those who experience how to hold their vocation and invigoration. So, as a keynote writer, head coach, author and leading consultant, I bang pretty such learned a lot during the 5 life of studying on success. I love run trailing 5 key traits in which a prospering grouping have in ordinary and it is as follows:

In a departure from what you might expect from an article forum, we would like to offer the opportunity for you to take a more interactive approach to learning the basics of The Skills. Anyone can try these exercises either in their personal or professional encounters, or both, and better yet, no one need know that they are participants in your learning!

Rather than simply tell you what you should be looking for in these exercises, we think it would be more fun for all involved if we held back a little and let you experience for yourself the most important building block of The Skills.

Modern presentation theory espouses a conversational approach to presenting, because that’s the way to maximize both comfort and trust between you and the audience. The conversational approach, a modern refinement of the humanist style first made popular in western cultures by president John F. Kennedy, is quite a bit different from the oratory style that most people associate with earlier great speakers such as Winston Churchill.

The foundation of the conversational approach is proper eye-contact, and the nature of that eye-contact is quite unlike the way 99% of presenters practice. In fact, once you know what to look for, you will discover that what first differentiates those who have The Skills from those who don’t is the way they engage their audiences with their eyes. Make no mistake, proper eye-contact is only one component of The Skills, but when you understand exactly how you must look at your audience to be a great speaker, the other components tend to fall into place.

When you nail down these (surprisingly straightforward) eye contact techniques, you can deliver to a group of 500 without ever feeling more anxiety than you would when discussing your job to friends around a lunch table. Most people find that hard to believe until they’ve actually received training in The Skills, but when you get it, it’s rather powerful stuff!

These exercises sound simple enough, but they do require a bit of vigilance on your part to have the desired effect. You must practice them at every opportunity for a week or so. At the end of that time you will know what you need to know to move on to the next level of acquiring The Skills, but only if you make a conscious effort to do what the exercises ask you to do every day.

Exercises:

1. Observe others’ eye contact. In every situation in which you interact with others, watch their eyes. Observe how long they maintain eye contact while they are speaking to you. Watch how they maintain eye contact while speaking to others. As often as you can, count the number of seconds they maintain continuous eye contact before switching to a new target and note this, preferably in a log of some sort.

2. In situations where someone is speaking to a group, again count the number of seconds the speaker maintains eye contact with each individual. Determine what the average amount of time is.

3. Be conscious of your own eye contact. When speaking with someone, do you stay focused on them? Do you look up, away, or down while speaking? Or do you maintain eye contact the entire time you are speaking with someone? How often do you move away from eye contact and then return? Do you look at other people for the same amount of time when talking to one as when you are talking to many?

If you’ve vigilant in your observations, you’ll probably be very surprised at the amount of time people hold continuous eye-contact when speaking. And yet it is this amount of time that sets the tone for what makes average speakers average and great ones great.

J. Douglas Jefferys brings twenty-five years of corporate training experience to his role as a principal of PublicSpeakingSkills.com [http://www.publicspeakingskills.com]. His firm changes presenters lives forever with their unique apporach to training presentation design and delivery skills. Discover how to design and deliver presentations that audiences actually listen to by visiting their website now. For a quick and entertaining video of Mr. Jefferys’ unique style and approach, check out: http://www.youtube.com/watch?v=whTwjG4ZIJg

We all want to be happy. But what is happiness? Is it the same for everyone? How do we know if we’re happy? And can anyone be happy all of the time? How can we find happiness? These questions come to mind when we speak of life happiness.

Our perception of life happiness is as individual as the way we perceive hot or cold. It’s sort of the same for all of us, yet it’s different too. No two people are exactly alike, so neither can our description of what makes a life happy be the same.

Webster’s Dictionary says happiness is: A state of well-being and contentment

An online dictionary says happiness is:

1. Characterized by good luck; fortunate

2. Enjoying, showing, or marked by pleasure, satisfaction, or joy

So, if we use these definitions, in order for us to say we are happy we would be fortunate, showing pleasure and feeling content. That makes sense. Most of the people that we think are happy usually show these characteristics, so lets use this definition and go from there.

Can I have life happiness if I don’t think I’m fortunate? Hmmm, that’s an interesting question isn’t it? Most people are happy when they feel fortunate or blessed by good luck, and most people who feel unfortunate or feel like they have lots of bad luck are unhappy. BUT, perception is everything.

A person can break their leg in a skiing accident (bad luck) and still be happy and smiling because they feel blessed and fortunate (probably because they didn’t break both legs!). They might be happy because they know that their leg will heal, and because they were having such fun skiing (up until they ran into the tree at 100 miles/hour!!)! Get the picture?

Or a person could have what most of us would call good fortune and still seem not to have life happiness. There is an art to happiness, and some of us know it and some of us don’t, but we all can learn.

Is life happiness the same for everyone? Probably not, even though the normal signs of happiness listed above in the dictionary definitions probably show up in every person who is happy. Different things make different people happy, so happiness and the pursuit of happiness cannot be the same.

For example: I am a quiet type of person who loves to work from home and socializes only once or twice a week. You may be a very gregarious person who works in an office full of people and lunches with a different person each day and goes to a party every Saturday evening.

We’re both happy, but our lifestyles are very different. Besides that, what you view as something that would produce happiness may not be a priority for me. Maybe it makes you happy to go on wonderful ski vacations twice a year. It might make me happy to go on wonderful vacations in my back yard and to squirrel my money away. Both situations are right, and we are both happy.

How do you know if you’re happy? The best way to tell if you are happy is to ask yourself how you are feeling. Really feeling. Do you feel at ease, relaxed and OK with how things are going on a pretty consistent basis? Then you’re probably happy. Feel your body. Is your body relaxed, does it feel calm? You’re probably happy.

Remember, happiness doesn’t come from anywhere but inside. If you are in tune with what is right for you, you will be happy. If you are trying to live someone else’s definition of authentic happiness, you probably won’t be.

Can anyone have authentic happiness all the time? Yes! Well, OK, if a terrible tragedy strikes, you probably won’t be happy at that time. But, you can work through the tragedy and the accompanying emotions knowing that life happiness can and will return when you’ve taken time to properly allow healing. Otherwise, yes. You can be happy all the time. Maybe not jumping up and down and laughing happy every moment, but peaceful content happy, certainly, and that’s equally valuable. Life’s small irritants come and go each and every day.

We have a choice whether we greet them with a calm smile or with an angry frown. Either is fine, but the calm smile will help you navigate life in a more happy state of being, and help you find happiness on a consistent basis. Remember, the art of happiness has a lot to do with perception.

Recent research shows what many of us have long suspected. Happiness, and the pursuit pg oy has more to do with an individual’s perception and what’s going on inside that person, than money, fame, or power. Even though those things may bring a feeling that is like happiness, it is attached to those things. Real happiness is much more attached to how a person perceives life. Luckily, if you are the type of person who has a “glass half empty” outlook on life, you can learn to have a “glass half full” attitude which will gain you happiness.

Winsome’s special topics include Personal Development, Setting goals, Life Happiness and self growth

For free e-books, tools and information about Life Happiness go to:

http://www.4lifeselfhelp.com

In sports, there will always be different levels of competition. There are times that teams name their worthy opponents while others just do not want to give others a chance to win over them. This is what we call rivalries. In College teams, it is very prominent. This is a good thing because even though teams are not playing on a championship match, it gives the same feeling that kind of game gives to its audience. The game becomes heated making this as one of the factors why a football match becomes exciting and memorable.

However, there are times when rivalries create chaos. Sometimes, the big guys on the field get on each others nerves and can start a fight. It is inevitable to loose your cool at times, especially when the trash talking in the field gets personal. The force gets very mighty in trying to tackling the opponent. This is a physical sport so it is expected that venting out the anger be easily channeled on natural flow of the game. One of the worst-case scenarios happened during the 2004 NCAA Match. One of the greatest rivals in football started a brawl at the Memorial Stadium. South Carolina Gamecocks and Clemson Tigers players had to be stopped by law enforcements.

Definitely, every team should know how to manage their anger, especially when they get pissed. We cannot avoid the conflicting personalities from different teams. The best thing that these players can do is to maintain sportsmanship. Every athlete is disciplined enough to know how they should act in games. It is no doubt that football is a tough game, and it should be placed in mind that toughness in this game is not all that is needed to win. Proper Decorum should be observed. It does not mean that the nature of the game is violent, then every player should take advantage of it to get ahead of the other team.

Not every player should be eaten up with the history. Every team should ensure that the rivalry is friendly wherein after the game, players get to shake their hands and wish everyone well. In the middle of the match, every player should take the tackle as it is just part of the game. There should also be no extra bumps after the fall. Moreover, when the player is down, the best is to help him up. This can give an impression that you know you hit him to hard and that you did not mean it. It may sound like a practice for the babies, but definitely when the game is heated, it can cool the flames a bit knowing that you one player is not after injuring the other. Rather this is all about business and playing the game the way it should be.

At the end of the game, always try to reach out with the other players. The memory of the game will live but you as a player should put all behind the rough experience after the game. On the next fight, you can start by welcoming your opponents. Not like the way the Clemson Tigers greeted the South Carolina Gamecocks.

Freddie Brister is a huge fan of the SEC and the South Carolina Gamecocks. His love for the game of football started with an older brother passing the pigskin around in the backyard with cousins and neighborhood friends. He later played in high school, college and coached high school football for 25 years, before retiring to write for Sports Fan Treasures. Check out his South Carolina Gamecocks Merchandise.

According to the American Medical Association Journal, over
100,000 Americans die in hospitals every year due to side effects
from regularly prescribed medications. Throughout America, a
huge amount of medication is prescribed on a daily basis.

The medical community openly acknowledges that fact that it does not
have any cure for several common diseases that affect people.
Most allopathic medicines have side effects that can range from
mild to severe. The reason for this is that most of these chemicals
have certain toxic properties. This is why there have been so many
prescription drugs that got pulled from the market after enjoying
several years of FDA approval.

The sad thing is that very few doctors nowadays bother to inform
patients about possible side effects due to close and cozy
relationships with the pharmaceutical industries.

Half of the truth is that pharmaceutical companies will only tell
doctors as much as they want to and not reveal the complete
picture. Therefore, the doctors are not completely to blame because
they cannot warn patients against side effects of chemicals they are
not aware of.

The trouble is that the business is so profitable is that these
medicine manufacturers are more concerned with profits and FDA
approval rather than the overall effect on the patients.

This is one reason why several doctors are now beginning to
recommend complementary alternative treatments, like herbal
therapies and medicines.

Here are some interesting facts:

• The totally amount of annual profits made by pharmaceutical
companies through sale of drugs in the United States alone is
over $100 billion

• More than 25% of all prescription drugs available contain plant
derivatives

• More than 80,000 types of plants are used all over the world
for medicinal purposes

• Over 75% of the global population depends on herbal remedies
for regular treatment

There are several choices available for people who are looking for
alternative remedies, including Acupuncture, Yoga, Qigong, Tai chi,
Ayurveda, hydrotherapy, massage therapy, homeopathy, energy
medicines, holistic approaches, and aromatherapy. In fact, the
number of herbal remedies available for different ailments equals
(if not exceeds) the number of regular drug treatments provided by
pharmaceutical companies.

The point is that prevention always was and always will be better
than any cure, mainstream or alternative. The advantage of herbal
remedies is that they move an individual towards a lifestyle more
geared toward prevention and cure in the early stages of any
affliction.

Pharmaceutical drugs work only after the problem has
development, they do not try to prevent problems because then the
manufacturing companies would go into a loss.

This is where herbal remedies leave the mainstream drugs behind.
This is also the reason why so many people are daily turning to
herbal therapies.

Herbal remedies treat the cause of the disease and not the
symptoms (like conventional drugs). Herbal remedies also have
almost no side effects.

Gaetane Ross is a Certified Natural Health Consultant who has spent over 4 years focusing on Nutrition and Health. She also specializes in Alternative Medicine, Spiritual Healing and Healthy Lifestyle. Gaetane’s mission is to positively transform the lives of everyone she meets by providing advice on Healthy Living.

Please visit Gaetane’s website for Professional Health Advice or Nutritional information at:

http://Live-O-Natural.com

http://HealthProductsReviewsLive.com

The stress reducing benefits of watching fishes are well documented. A fish aquarium is considered beneficial in calming the nerves of the aquarium owner. Therefore aquariums are increasingly becoming parts of homes. Of all the fishes goldfish assume importance because of their sheer brilliance of color and body shape.

Though fishes do not communicate like other pets goldfish rise up to the surface of the water when they see their owner. If this goldfish info is interesting, here is another one - goldfish live up to 30 years in proper conditions.

Goldfish are carps belonging to the Cyprinid family of fishes. Goldfish info about their origin states that they were found and bred by Chinese farmers nearly a thousand years ago. Goldfish info about their body colors and shapes is amusing.

Goldfish are found in many colors including: yellow, orange, black, brown, deep green, silver, and even blue. Some goldfish have upturned eyes, hood on their heads, and split fins. Round goldfish and goldfish having flowing fins are considered to be fancy.

A sensitive piece of goldfish info is that goldfish can live in very dirty waters but can die when made to live in water polluted with their own urine. They can tolerate any kind of dirt but not their own urine. Large quantity of water in the aquarium reduces the toxicity caused by their urine. Aquariums require regular cleaning and change of water for keeping goldfish properly.

Another piece of goldfish info states that chlorine contained in the tap water is toxic for goldfish and can kill them. So the tap water has to be treated to nullify the effect of chlorine. Normally half of aquarium water is changed at any time. Goldfish are light eaters and do not digest any kind of meat.

If you want to learn more about goldfish or more specifically goldfish info then check out http://www.secretsofgoldfish.com

You who read this, may be an engineer, a mechanic, an inventor, a student, or even someone without an engineering background. My observation is that the general public has little knowledge of basic science and even engineers and other professionals often lack in basic insights, in spite of being advanced in their specific fields. This often leads to unfeasible projects and wrong choices, based on wrong assumptions, that no computer can correct.

I myself am a graduated engineer on B.Sc level in both mechanics and electrics. Nevertheless, most of what I know worth knowing as an engineer today, I learned from practical experience and backing it up with own theoretical studies afterwards. It forced me to focus on basics. When you have the basics right, the rest is just methodology, where the computer can be very helpful, but don’t let it “think” for you!

If you have no engineering background, why would you need to have some basic knowledge of all this, you may ask? Well, we live in a technological society and so we are confronted with technological matters and products, that we need to understand the basics of to make proper choices. Ever bought expensive “energy-saving” lamps, while in the same time needing to heat your home? Do you think hydrogen and/or fuel cells are energy sources? Do you think energy can be produced and consumed? Would you invest money in solar panels, or other renewable energy technology for your home? The more these kinds of things apply on you, the more you need to read this article.

The Laws of Newton

The metric, or SI system of units is based on the laws of Newton and so is most of modern mechanics and dynamics. They are essential for basic understanding:

• 1. A mass object persists in its momentary motion to speed and direction, unless it is forced to change it by external forces working on it.
• 2. The acceleration of an object is proportional with the force F working on it and inverse proportional with its mass m. Hence, the acting force is given by: F = m.a
• 3. A force acting on an object, will yield a counter force of the same strength in the opposite direction: action = reaction.

Although these laws sound simple, they are often wrongly applied, or overlooked. Especially the third law appears to be the most fundamental one, still not fully understood by Science and subject for discussions on the highest levels (how can you move a table for example, as it pushes back with the same force?).

Power and Energy.

Power and energy are very often mixed up. For example a lightning, causing a tree to split into half, is very powerful, but it has very little energy, because it lasted only a fraction of a second. Energy is the range of power and time. Power is expressed in Watt and energy in Joule - 1 Watt thus is 1 Joule per second, inversely 1 J = 1 Ws (Watt second). If you during one hour would apply a power of 1000 Watt (1 kW = 1 kJ/s), which approximately is what a flat iron takes, the energy involved is 1 kWh and this is thus equal to 3600 kJ. If you instead would develop that energy in one second, the power becomes 3600 kW, or 3.6 MW - a small power plant! If thus a lightning would have a power of say 10 GW and lasted 1 millisecond (it looks much longer, because of the glowing air around it), it contained an amount of energy of just 10 MJ = 10,000 kJ, not more than 2.8 kWh, or to power a flat iron for around three hours! If you in brochures would read dimensions like kilowatt per hour, or horsepower per hour, you can know that the author has no idea what he/she is talking about.

Energy is also the range of force and traveled way. If you lift up a mass of 1 kg to a height of 1 meter, the force needed for that is the range of mass and gravity acceleration, as per Newton’s second law. On Earth, gravity acceleration is 9.8 meter per second square, which we can round to 10. The lifting force then becomes 10 kilogram meter per second square, which is called the Newton (N) and the work done is then 10 Nm (Newton meter), which is 10 Joule: 1 J = 1 Nm.

The same confusing exists around temperature and energy. What would you rather have in your hand, a 1 inch red glowing sewing needle, or a 4 inch red glowing bolt? Though both have the same temperature, the needle will just cause you a blister, whereas with the bolt, you won’t have a hand any more. The bolt contains much more energy (more mass) than the needle and that makes the difference, not the temperature.

If you would be interested in a solar panel to heat water in your home, the temperature it can yield is therefore not that important. You pay for energy instead and that is what you want to save on. Ideally, a solar water heater should work on a low temperature, so it doesn’t loose too much heat through its insulation and produce a larger water flow instead. You then save more energy = money, because of the higher efficiency on which your solar panel works. To reach your desired water temperature in the kitchen and bathroom, you can heat additionally with say an electrical heater. Combination with a heat pump, also taking up heat from your warm waste water, would give the absolute best results (but high installation costs). Read more about that at the end of this article.

However, manufacturers of solar panels optimize on temperature, which is a good selling argument for the energy-unaware public. At higher temperatures, the size and thus the costs of the whole installation, including storage tank, become lower, which also sells better. They don’t talk very much, or at all about efficiency, being the relationship between how much solar energy hits the solar panel and how much of that you can use in the end. They talk about capacity instead - solar energy is “free”!

Next to consider is Pressure. Usually it is that of a fluid, like a gas. It is expressed in Pascal (Pa) which is force (N) per unit of area and thus 1 Pa = 1 N/sqm (Newton per square meter). Atmospheric pressure at sea level is roughly 100 kPa, thus 100,000 N/sqm. In technical descriptions it is also often called the bar - 1 bar is thus atmospheric pressure. Pressure can also be seen as stress in materials, tension. In the SI system of units, pressure and tension are thus both expressed in Pascal.

Then there is contact-pressure. This is what makes a knife work. The sharper a knife, the smaller its edge area (A) is and for a given force (F), the contact-pressure (F/A) becomes larger, also expressed in Pascal. With this, all units in the SI-system are given. It has only three basic units, the kg for mass, the meter for length/distance and the second for time. No conversions are needed

Circular Motions.

From Newton’s third law follows the perception that on an object in mechanical rotation, two forces are working, a centripetal one, pulling the objects towards the center of rotation, and a centrifugal one, tending to push it out radially away from that center. If the mechanical contact with the center of rotation suddenly is broken, in that very moment no forces are working on the object any longer and thus it will move as per Newton’s first law, meaning it keeps its speed in the direction it had in the moment just before losing contact. That speed was directed tangentially and thus the object will “fly out” in the tangential direction, not radially. In fact, centrifugal forces do not exist, because then there would be no resulting force to keep an object in its circular path - only the centripetal force exists. This is a hot discussion point in Science - Newton’s third law.

Hence, when you are in a car that makes a sharp curve, your body does not push against the inside of the car (centrifugal), but the inside of the car pushes your body into the curve (centripetal). As per Newton’s first law, your body wants to keep its direction of motion, straight ahead, just before entering the curve - it’s called inertia. There is only one force, the centripetal one (free motions in gravitational fields, such as orbits of planets and satellites, are described in General Relativity, which we won’t discuss here).

From this follows the notion of “inertial” systems, which are frames of reference in which Newton’s laws are valid. An accelerated system is thus not an inertial system, because motions described in it, would not follow Newtonian laws. This causes a severe point of confusion, as follows:

If you are an inventor of “fantastic” mechanical machines, your really should understand the implements of impulse. Impulse (p) is the amount of motion, being the range of speed (v) and mass (m), which is equal to the range of working force (F) and the working time (t): F.t = m.v = p. An impulse has a direction, which (kinetic) energy has not and therefore impulses can have a positive or a negative sign between opposite directions of motion. Because impulse is a function of force (the time-derivative of it), Newton’s third law requires that the sum of all impulses of moving components within a system (machine) must be zero. However, many inventors, not being aware of this, “create” a resulting impulse, that accelerates the system.

What they do is mixing up reference systems and impulse with energy. If you consider a mechanical system (machine), that has a certain total mass, but also internally moving parts, the resulting impulse of those parts, the sum of all impulses, will be zero relative the system’s center of gravity, but not necessarily relative a resting frame of reference (an observer) in which the whole system (machine) may be moving (at constant speed). The sum of kinetic energy of all the internally moving parts, is of course a positive value (negative energy is less than nothing). This value is the system’s internal (kinetic) energy. Since this internal energy is needed to keep the internal parts moving, there cannot be any energy left to accelerate the system (machine) as a whole. On the contrary, energy must be applied all the time to overcome the friction that the internally moving parts are subjected to, otherwise they would come to a halt. This applied energy converts to heat.

Sadly, there are several patents on according designs, claiming to be “inertial drives” for space-ships or whatever. Their inventors, some of which may have ruined their private economies on this, were not confident with the basics of dynamics, as outlined above. See some of those unfortunate examples here: http://jnaudin.free.fr/html/IPEmain.htm

Mechanical Engineering Concepts

Now, imagine you had a ball that is perfectly spherical and a table that is perfectly smooth, so when the ball is placed on the table, the contact area becomes a dimensionless point - zero whatever. Then the contact-pressure F/0 becomes infinite, regardless how light the ball is - something must break. No material could withstand an infinite contact-pressure and from this follows that not even with the most fantastic materials, yet to be developed, a frictionless machine could ever be built (that would require ideal point and line contacts).

Some inventors have a problem with that, like a patent I once saw, where a 15 cm (6 inch) diameter cylinder was rotating at 1500 rpm in a somewhat larger cylinder, supported by a number of smaller rollers in the size of just a few millimeters - it looked like a ball-bearing in cross section. These rollers would rotate at roughly 50,000 rpm. You look in any bearing table what the admissible speeds are and you would see that this design exceeds the limits by far; self-destruct through friction!

Another problem that many inventors have is judging leakage potential. Leakage is a function of pressure ratio, not of pressure difference and it varies to the third power with the clearance gap between the boundaries. It means that the same sealing device, that would leak in an however deep submerged submarine, would leak more in a space craft, because there the pressure ratio to vacuum is infinite - many don’t seem to know that. In addition, even less known, is that the best sealing is obtained with a single, unbroken sealing line, ideally a circle.

Therefore, the reciprocating circular piston machine will always prevail over any rotational displacement concept, that contains several broken (discontinuous) sealing lines. These rotational concepts can be used and are used in low-duty applications, where they have their advantages, such as in air-driven hand tools, industrial compressors, etc, but not in heavy-duty combustion engines. This is why the Wankel never became commercial, except a few years in cars from German NSU, that went bankrupt on it in the 1970-ies.

One can see the most ‘horrible’ designs in various patents, the worst I saw being an engine, consisting of a torus shaped tube, with a slot over its inner length to let through a piston rod, attached to a circular piston moving in that torus, while flat plates were sliding radially in and out the torus to form alternate compression and expansion chambers - at best a good cream-wiper (but it got a gold medal in an inventors contest - its glorious funeral)!

Many inventors have tried to find a linear transmission, that can replace the pendulous crankshaft. It has various disadvantages, such as causing vibrations of higher order, but most of all causing side-forces on the pistons, resulting in excessive wear and leakage there. I once read a statement from a development manager at Volkswagen in Germany, that the crank mechanism alone stands for 20% of the fuel consumption. All alternative designs I have seen, indeed convert the linear piston motion into a rotating one on the shaft and without causing side forces on the piston, but instead they generate the same or higher side forces on sliding parts elsewhere in the design, causing excessive friction and wear there - definitely no fuel savings. I have found a design that does not contain any sliding parts, but consists of rotating components only (I got the idea, when I was with my kids in a merry-go-round). Had I only come up with this a good 100 years ago, I could have made it, but now the pendulous crankshaft is so well established in automated production lines, that it can’t be changed any more. I almost hade it made with Compair-Reavel in the UK, around 20 years ago, but also they found it in the end too costly too change their production line - my bad luck!

Thermodynamics

Another basic thing, often misunderstood, is that energy can’t be “used up”. Surely, the gasoline you put in your car is used up, but the energy it developed is still there, to stay around for all eternity. All the chemical energy that was stored in the original fuel, is converted to heat. Firstly at high temperatures in the car’s engine, but then decaying to heat at ambient temperature. The rest is also converted to heat by friction, the tires on the road, the transmission, air resistance, etc. All energy that we “use” with our technology, finally decays to heat at ambient temperature, even the light from your lamps at home does that.

So is there the term “waste heat”, as opposed to “useful heat”.What is useful? Take “energy-saving” lamps for example. If you live in a cold climate, where you have to heat your home, a normal cheap hot glowing light bulb actually delivers 100% useful energy, 5% of which is light, the rest is heat, that helps heating your home, but this is not what you are told. Only the 5% light is brought forward as “useful” and you are told that you are “wasting” 95% with a normal glow bulb. Only in warm climates, especially third-world countries with very expensive electricity, or in cooled rooms, the use of energy-saving lamps makes sense!

The misconception by the public is that useful energy is “consumed” and waste energy is not. The real situation is that the useful energy is just used, but not “consumed” and is wasted after usage just the same. That’s why your energy bill comes back every month - nothing of what you used, is left. Therefore you read everywhere about “energy production” and “energy consumption”, not in the least used by decision makers in energy politics! It indicates that there is no basic understanding in public society, what energy is about and so unfeasible projects are initiated, wasting time and (your tax) money.

The First Law of Thermodynamics says that energy cannot be created (produced), nor destroyed (consumed). We can only convert energy from one form to an other and the Second Law of Thermodynamics says that it all finally must decay to heat at ambient temperature and so it does. Even though many know this, that is end of story for them, as far as the First Law is concerned. However, the scientific definition of the First Law says that if you add energy to a system to bring it in an other condition, you must remove the same amount of energy to bring it back in the original condition. Naturally, because if we could remove more, energy would be created from nothing and if less, energy would disappear into nothing. This formulation has great consequences, as follows:

Let’s consider an ideal hydrogen (water) engine, by which we pour water in it on one side and the same water AND useful mechanical energy comes out on the other side. Because the engine returns the same water as was applied (firstly as steam, but than condensing to water at ambient temperature), there cannot be a net output from the engine - it would have been created from nothing. If there is an output anyway, this means that the according energy had to be applied as well, not only the water. Indeed, we must apply energy to split the water in hydrogen and oxygen. If that could be done at an efficiency of 100% (electrolysis has only 60%), then that energy could appear as mechanical work on the shaft. This then means that the hydrogen only was an energy converter, definitely not an energy source!

Hydrogen does not occur in free form on Earth, like fossil fuels do and therefore hydrogen can never be an energy source. Give me a dollar for every article that says different and I will be well off!If there would be a method to obtain free hydrogen at considerably less energy input than what combustion with oxygen gives in output, yes, then it would become an energy source, but such a method has not yet been found.

Instead of splitting water, hydrogen can be obtained from natural gases, such as methane. It shows however that the overall efficiency of such a hydrogen loop in a combustion engine would have a somewhat lower overall efficiency than using the natural gas (or bio-gas) directly in a combustion engine. Moreover, hydrogen is a very tricky gas to store and to handle. Not only is it very explosive, but it tends to exude through most metals as well. It is very voluminous, around ten times more than air and thus needs to be brought on high pressures to keep the volume down and that takes a lot of compression energy. Liquefying it would even take more energy, plus a temperature problem for storage as well. There are materials that can absorb hydrogen gas at a lower temperature and give it off again at a higher temperature, surely the better way, but also not very cheap and practical in a distribution system. All together, there is no economy in hydrogen engines, but it may have an environmental advantage - the only viable argument for using it, provided the consumer wants to pay the higher costs, do you?

The same can be said from fuel cells, working on hydrogen - they produce water (steam) and need a steady supply offresh hydrogen and oxygen to work continuously- whereto get how? Yes, the energy that fuel cells are supposed to “produce”, originally came from fossil fuels to manufacture the input hydrogen. Can we call that “non-pollutant” energy? A fuel cell is NOT an energy source, just an energy converter.

The importance of using spontaneity in physical processes is largely unknown, because it has to do with entropy, something not explained very well in schools. So I had to learn in practice, by trial and error, that if you want to separate fluids from each other, you must try to find a design by which this happens as spontaneously as possible, for example with “smart” piping, rather than using filters. The more you try to force it about with various design details, the more you will lose in efficiency - you “produce” entropy as it wrongly is called. The more you force about a process (introduce “irreversibilities”, as it is called correctly), the greater the change of entropy is, the lower the efficiency becomes. Entropy is an essential part of the Second Law of Thermodynamics, not to say the whole of it, but yet there is no general agreement among scientists, what entropy actually is - very confusing.

The Second Law is actually not a “real” law, because it is based on observations only, not on any physical principle. This means that if the observations would change, the Second Law would have to change too, but this hasn’t happened yet, which makes it a law. In everyday life we experience that most things don’t happen spontaneously, only accidents, or coincidences in general, do (”Murphy’s Law”). If we want things to happen, we usually have to do work for it. Hence we could formulate the Second Law as: “for free only the Sun goes up”. On the internet, this formulation of the Second Law is widely violated by millions of web sites, trying to let you believe that for a small investment, you can become rich very soon. But that is not engineering (rather “religion”), so I leave you with that.

In engineering, especially when it comes to renewable energy sources, the Second Law is also widely violated, or rather ignored. Oh yes, solar energy is free, but you can’t use it for free, why not? Because it is widely spread in Nature and thus the effort to collect it into one point of usage and to present it in a usable form, is very large and you have to pay for that effort. Using fossil fuels is cheaper and easier and that’s what we do instead. The same would be valid for nuclear power, but there the “environmentalists” have been successful to obstruct it - with thanks from the Arab oil sheiks.

Renewable energy is something the Second Law is very much against, because it wants to spread it out in the environment, not to collect it for our use. Therefore these renewable energy sources are high-entropy ones, meaning you must do a lot of work to make use of them (low efficiency). There is one exception though and that is hydro-electric power. The forces of nature actually do all the work for us, by collecting rain water in high situated reservoirs, ready for us to use; they are low-entropy sources. But also here the “environmentalists” choose to favor the oil sheikhs instead.

Next would be heat pumps, which are inverted refrigerators. A heat pump absorbs heat from the environment, usually from the ambient air, by generating a cold surface there. This surface is small, but it actually collects heat from large, remote areas, brought by the wind. Also here, the forces of nature do the collecting work for us, a second exception on the rule (compare with a storm blowing aside of your wind propeller, without affecting it, or the Sun burning a hole in the ground next to your solar panel, also without affecting it).

The heat pump, as the name says, pumps up the ambient heat to a higher temperature that we can use, for example to heat water. Also its drive power is given off as heat at usage temperature, is thus no loss (where it is in a refrigerator) and so a heat pump can give off between 3 and 4 times more energy than what it takes to run it. If all the billions of dollars that to date and ongoing are wasted on wind propellers and solar collectors of various kinds, would have been used to provide all households with heat pumps, many power plants could have been shut down by now and no more oil would be burned in homes for heating. This however is a truth with modification. A huge polluting industry, likely using fossil fuels, would be behind all those heat pumps, but that would be the same also for wind propellers, solar panels and the production of hydrogen and fuel cells, all having to be financed by the consumers and making profit as well - the Second Law all right:”For free, only the Sun goes up”

Rudolph N. J. Draaisma
CONSULTING ENGINEER
Online expert advice for your best solutions, against a small fee for short-term issues.
Expert on Energy Conversion & Recovery Systems
also providing: CAD drawings, Techn. Documentations, Calculations, Translations, R&D projects
The Alternative Energy and Engineering Site

You’re decision to purchase a home is probably one of the most important that you’ll make over the course of your life. It’s a great idea to do some research before you make an offer. Although the purchase price is very important, there are other numbers that should also be analyzed. Many of these items are skipped over or ignored by impatient or excited home buyers. Many of these can really make a huge difference in cost of the ownership of the home.

Interest Rate is used to determine how much you will pay the lender in order to borrow the money for the home. It is always best to shop around for the best interest rate. On a $500,000 home a difference in 1 percentage point can make a $336 difference in monthly payment. This is a considerable amount. For some people, $336 per month can buy a car. Make sure you research interest rates really well before making an offer to buy a home. Having a good credit rating will help you with getting the best rate possible.

Property taxes is a huge one that many buyers overlook. You can sometimes save thousands in property taxes by purchasing in a neighboring town. If two houses have the same purchase price, a $1200 per year difference in property tax is $100 per month. This could be significant as the difference gets larger. Wouldn’t it be nice to put that extra $100 per month towards the purchase price and now you could afford a more expensive home just one town away?

All homeowners need to pay homeowner’s insurance, but make sure no special insurances are needed on the home that you plan to purchase. If the home is in a flood or hurricane zone, the mortgage company may require you to purchase additional coverage. Buying a house outside of a flood zone can make a huge difference in your premium. Flood insurance is expensive.

Closing Costs are another thing that deserves attention during the home buying process. Many different mortgage companies will have different fees and some will even call the same fees) something different. The best way to do this is to get a good faith estimate from all possible candidate mortgage companies. Based up these estimates you could see which company is giving you the best deal on fees.

If you’re working with an agent, he/she should be able to give you comps. Which are actual values of similar homes that have sold. You don’t want to make an offer on a house without reviewing these numbers. This will really give you a good idea of how much to offer for a property.

When making an offer on a home, this article is not an absolute list of items to take into consideration. There are many other things that need to be analyzed. The intent of this article was just to touch base on some of the more prominent ones.

The author of this article is the owner and creator of Older Homes For Sale. The website’s main focus is on homes or properties that are fifty years old or older.

What?

I guess at this point in my life, some would say I have gone completely “around the bend” or “over the edge” about this issue of getting more focused, organized and productive. It is no longer just an area of interest for me. It is my career, my passion and pretty much all I want to do for the rest of my life. I believe that studying about and teaching this body of knowledge is my true “calling,” and my fascination with this field continues to grow stronger each day.

If you study any topic diligently, sooner or later you begin to see fascinating connections and begin to understand how the various strands of knowledge and snippets of information come together at a common point. When this starts to happen, you can’t help but wonder about the unifying element of it all. You wonder, “Is there a central idea, concept or focal point that pulls it all together?”

So…is there a focal point or unifying element of getting focused, organized and productive? I’m beginning to think there is!

So What?

If you observe highly focused people, you can usually track their behavior to the same controlling source. If you trace good organizing habits to their source, you always arrive at the same place. If you track down what makes a person highly productive, once again, you find yourself heading in the same direction. It’s as if you backed down the train tracks heading out of New York City until you arrived at their originating point. If you do this, sooner or later, you arrive at or near 42nd Street and Park Avenue…New York’s Grand Central Terminal.

In similar fashion, if you back down the tracks leading to focus, organization and productivity…they take you to the Grand Central Terminal of human beings…the brain.

I often tell people who are struggling to get organized, “If you get your mind right…everything else will begin to easily fall into place.” I suspect most people probably pass this off as a casual statement or consider it tired, worn-out advice. However, in my mind, there is no better advice I can offer. I have studied this topic for a long, long time. I am becoming more convinced that the human brain is the focal point that pulls everything together. Therefore, if you understand more about how the brain works, you will begin to uncover the true secrets of living a more focused, organized and productive life.

Now What?

A friend of mine recently bought a very expensive, very sophisticated new car. Right after he bought it, we jumped in his car and took a short ride. The car is the high-tech automotive equivalent of a thermos. It knows! Just as a thermos somehow “magically” knows to keep cold things cold, and hot things hot…this car knows how to assess various situations and respond accordingly and appropriately. It has enough buttons, switches, bells, whistles, gadgets and features to keep a rocket scientist happy for quite some time. Fortunately, my friend is a maven with regard to such matters, and I am convinced he will learn to use all the technological wonders available in his new car. However, I imagine some people will buy a car just like my friend’s and never learn to use a fraction of the gadgets. All the gadgets will be available, ready for use…but they will get little use out of them until they take the time to understand how these features work.

In a sense, this is a good metaphor for your brain. It also has a lot of interesting bells, whistles, gadgets and features. You increase your ability to take advantage of these wonderful features if you know more about how they work. Here are just a few examples:

• The brain has three separate systems that either work in harmony or compete for control over your behavior. One system is in control of your automatic functions such as breathing, heartbeat, temperature, metabolism, etc. A separate brain system controls your emotional functions. A third system controls your ability to think and exercise sound judgment. Everything works best when the systems are in balance and working together. When you see someone who is focused, organized and productive, the three systems are operating in harmony. The best way to create balance among the three systems is to pace yourself properly (as opposed to overloading your systems with too much input) and simply think about what you are doing…when you are doing it. Another way of saying this is: Do one thing at a time! Somewhat rare behavior these days. The brain systems work together best when you focus on one thing at a time.
• When you begin to overload your brain systems by multitasking, rushing or operating under too much stress, your emotional brain (the limbic system) takes over and starts calling the shots. One part of your emotional brain (the amygdala) hijacks your body and takes total control over your behavior. Although this can be a good thing at times (for example, if you find yourself being chased by a saber-toothed tiger), unlike a thermos, the emotional brain doesn’t always know how to respond appropriately to incoming messages from your five senses. For example, when the incoming messages indicate a tiger is on your tail, every nonessential brain system that doesn’t have a lot to do with running in the opposite direction is essentially shut down. One of the first systems to shut down is the thinking system of your brain (the neocortex). Your emotional brain basically says, “Don’t think…run!” The good news…we are not chased by tigers very often these days. The bad news…the brain doesn’t know that. Anytime you operate under too much stress, the brain thinks a tiger is on your tail and shuts down the thinking functions of your brain. In general, when the thinking functions of your brain are shut down, you default to your habits…good or bad.
• The moral of this story…if you are going to operate in a state of heightened emotions, you had better install some very good habits in your brain and nervous system to handle things important to you. That’s why they make pilots, astronauts and military people drill on emergency procedures so much. When the amygdala hijacks their bodies, they can still function effectively. Therefore, forming habits is the key to success in getting more focused, organized and productive. Planners, file systems, electronic gadgets and gizmos only work if the proper habits are formed first.
• The brain also houses your memory system, which operates much like a sophisticated tape recorder. Unlike a regular tape recorder, the brain’s memory system stores both facts and feelings. When things happen to you, a part of your emotional brain (the hippocampus) records the facts related to what happened and another part (the amygdala, again) records the feelings associated with the facts. When a similar, not necessarily identical, set of facts occur in the future, the tape recorder is turned on and the recorded feelings resurface and strongly influence your behavior. For example, if your parents scared you as a child by saying, “Don’t talk to strangers,” a little too often with a little too much emotion, you may have trouble being a superstar salesperson as an adult. You’ve probably got a tape running that inhibits your ability to perform one of the most critical functions in sales…talking to strangers. Most people have strong tapes related to money, taking orders, giving orders, being assertive and other issues related to being a successful businessperson. Some of your tapes serve you well…some don’t! Learning more about your tapes can be an enlightening experience.
• Although people often compare the brain to a computer, it is really better to think of it more as a chemical factory. All instructions issued by the brain are carried out by chemicals call neurotransmitters. Therefore, what you eat, how much you exercise, how you breathe, and anything you do that alters the chemicals flowing through your brain can alter your behavior. Basically, the neurotransmitters running through your brain and nervous system fall into two categories…excitatory or inhibitory. So, take a look at your current life speed and figure out if you need to slow down or speed up. Here’s a hint…learning how to breathe properly is a good use of your time if you want to influence neurotransmitters.

I could go on and on about how the brain, tapes, neurotransmitters and other factors influence behavior. But here’s the main point: If you really want to experience quantum leaps in your ability to get more focused, organized and productive…learn a little more about how your brain works. When you understand more about how the brain works, you can actually begin to exercise some measure of control over it, especially when you are operating under stress. Otherwise, it controls you…and you wonder why you intended to do one thing…but did another thing entirely.

You can receive regular tips on how to live a more productive and joyful life by subscribing to Chris’ blog at http://www.chriscrouch.typepad.com

Visit http://www.thegosystem.com to learn about the GO System, a course of easy-to-implement ideas on improving focus, organization and productivity in the workplace. The GO System is available as a self-study program, and is also taught by corporate trainers and professional organizers all over the country.

To learn about becoming a Certified GO System Trainer, visit http://www.gosystemcertification.com

Refrigeration is a surprisingly complex process for what it ultimately does in the end. It takes a lot of electronics and fluids to properly cool your food and resources. All of this is only possible through a number of technological advances that have occurred over the past century. The specifics don’t matter too much to most people, but you should understand just how important refrigeration is for trade and business as a whole.

All advances in refrigeration are through refrigeration engineering ideas. This is actually a fairly complex area since a whole lot goes into the ultimate planning. The cooling can occur through a mixture of cooling and heating liquid. For your average home refrigeration unit, this won’t be too complex of a process thanks to the wonders of modern technology. The refrigerators used by major businesses are a separate issue though. They often require a special installation and design.

It is important that the engineers know what they’re doing when they are designing a system, because a number of the chemicals commonly used in refrigeration are somewhat dangerous to humans. This means that any flaws in the system could have some fairly serious consequences. A number of industrial units use ammonia refrigeration for their cooling fluids. You probably don’t want this leaking out into your factory.

Is there a good reason to have such a high level refrigeration unit installed though. Every business won’t need such a sophisticated unit. I’m sure that a mini-fridge would do for most offices. These refrigeration units are just to facilitate the storage of perishable goods or food so that a day’s work doesn’t go down the drain. This in itself may not seem that interesting, but the advancement is really a sign of advancement. Being able to store one’s goods is a clear sign of industrial advancement and growth. Keeping things from spoiling is one of the most essential aspects of trade. It really shows just how far we’ve come as a society when goods can be shipped halfway across the country without any real issue.

The good news is that there are a number of sources to find a good refrigeration engineer. If you ever need to have industrial refrigeration put into place, then just take a look around for any local contractors who have previous experience. There are also now online resources for you to find and compare local contractors and engineers so that you can get the most bang for your buck.

Caitlina Fuller is a freelance writer. All advances in refrigeration are through refrigeration engineering ideas. This is actually a fairly complex area since a whole lot goes into the ultimate planning. A number of industrial units use ammonia refrigeration for their cooling fluids. You probably don’t want this leaking out into your factory.