Sunday, October 14, 2012

Better than Nothing

I am currently in my fourth job since I graduated in 2008. I experienced inconsistencies on my incomes which had affected me badly in the past. However, I feel that the experience that I had gone through is beyond the dollar sign that I always aimed for.

In every organization that I have joined in the past, I heard and I saw a resemblant of a behaviour. A particular behaviour which I believe most of us encountered previously or even now. 

Satisfaction is a very subjective issue. Different people will have different level of satisfaction in anything which will reflect their expectation. In my previous experience, I have been encountering people with very high expectation which at the end comes with a very high disappointment. 

The most common issues are workload and remuneration. Some people always complain on their workload which they claimed to be quite a lot and also on their salary, which they claimed to be too little. From my point of view, I always see these people as those who want an easy job but with very high salary which is ridiculous to me.

Jealousy is one of the factors that contribute to the behaviour. For example, an executive with a total remuneration around 8k is suppose to do a job worth of 8k to the organization but he passed most of his responsibility to the next in line person which is a lower ranking personnel let say an assistant executive with a remuneration to be less than 3k. Now, the assistant executive has to do works worth more than 3k and the executive is doing the work that worth of less than 8k. The assistant executive would bear the burden while the executive will only have to wait for the final results for his report.

The above situation would create jealousy and will normally lead to poor quality of work. Most of the executive works will be done improperly and would definitely affect other parties who share the same process. The situation will become a chain reaction and will definitely affect the whole group and affect the quality of work of the organization.

My experience had taught me that whatever we have at this moment, it is very important for us to appreciate it no matter how hard it is. The experience we gained from a tough situation is priceless and will be our guidance in the future. It is a learning process. If we are remunerated with a far lower value from another, just accept it for this moment. It is better to deliver the best that we can rather that to deliver the best that we want as in this situation, the best that we can offer is always far beyond the best that we want to offer.

This is my words from my experience. It is always better to appreciate anything that we have now than to appreciate it after we lose it. Take my words as the person who had lost a few jobs and learned from the behaviour of other people. It is always better to have less than to have nothing at all.

Tuesday, September 18, 2012

Saving Electricity on Air Conditioner

I was surfing the internet trying to find the solution to cool down my home during the hot day. I can't bear the heat and the situation was getting worse as my air conditioner was not functioning properly. There was a minor leakage at the end of the gas tube which caused the cooling gas to escape.
I found a lot of suggestions on the method to cool down the house during a hot day on the internet which then come to a very simple conclusion on the principle of cooling the house which is physics; more specific on thermodynamics.

Based on the principle of thermodynamics, heat flows from the high temperature region to a lower temperature region; which means that cool air in a confined space will eventually gets warmer over time. Therefore, in order to cool the house, the air must keep moving in and out. Just like the principle of operation of an air conditioner; in order to cool the air, the air must flow passing the flow of the refrigerant. When the air or the refrigerant stop, the cooling effect will reduce.

The most important fact is to keep the air moving in and out. Remember, hot air will go up and cooler air will go down. In order to cool down the house, we must get rid of the hot air and allow the cool air to get in. Cool air will get warm over time in a confined space.

So, the key is KEEP THE AIR MOVING. Open the lowest window on one side of the house to allow cool air in and the highest window on the other end of the house to allow hot air to escape. Putting a fan to aid the air flow will help to get rid of the hot air. Hence we save on air conditioner electricity consumption and additionally we save our environment.

Sunday, August 7, 2011

Save Money, Save the Earth

By 

It does not matter what side of the global warming debate you are on, this article will help anyone who wants to save money. By making simple changes in our lives and thinking about particular habits and routines that we have, all of us can take simple actions to improve the quality of our lives, live a more eco friendly life, and save money by going green.
Most blogs that discuss saving money and the environment will include tips such as walk or bike rather than drive, try public transportation and carpool, and think about using an alternative fuel vehicle. Unfortunately these are not an option for everybody. However, there are many different things we can do to become a part of the national movement of "going green."         
Simple Actions to Save You Money and Save the Planet:
  1. Replace regular light bulbs with compact fluorescent light bulbs. If every household in the United States changed only 1 frequently used light bulb to a fluorescent light, we would save enough energy to light more than 3 million homes for one year. This is one of the easiest changes to make in order to save money and help save the earth.
  2. Expand your batteries life span. It is best to buy rechargeable batteries but if that is not an option here are some tricks to increase the life of a battery.  1. Do not replace all 4 batteries. When your device stops working, it may be because only one battery is dead. Try buying the self-testing batteries and check each one, only replace the dead batteries. 2.  Keep your batteries in the refrigerator to make them last longer. 3. Believe it or not, your laptop computer does not belong on your lap. Laying a notebook on a soft surface restricts air flow and heats up the battery. To prolong the life of the battery, invest $5 to $20 in a "cooling pad."
  3. Get a home energy audit: Check to see if your utility company offers a free home utility audit to help you find air leaks, poor insulation and determine your homes energy efficiency.
  4. From the home energy audit, you will likely be told to seal and insulate your home. You can hire a contractor or for the more adventurous try a "Do-It-Yourself-Guide." This may cost some money up front but will definitely save money in the long run.
  5. Keep your water heater warm by wrapping it in an insulation blanket. According to the U.S. Department of Energy, adding insulation to your water heater can reduce heat loss by 25-45%, thereby saving you 4% to 9% in water heating costs. You can buy these at any home improvement store for about $20.
  6. Insulate your car's battery. Check to see if your car's battery is insulated properly, if not buy a plastic insulated battery blanket for $10 to $30.
  7. Charge your batteries with solar power. Pay a onetime fee of $80 to $200 and then charge your batteries for free for years and save money.
  8. Unplug unused electrical devices and save money on your electricity bill. This is easier said then done. Start by unplugging your cell phone and iPod chargers. In addition buy a power strip that allows you to turn it on and off easily.
  9. Turn off the lights and go green! This may seem like a no-brainer but it is amazing how many people keep their lights on, television running, and computers going. Turning these off will not only save money on your electricity bill but will add in our efforts to save the earth.
  10. Keep your thermostat between 68 and 78 degrees Fahrenheit. Use blankets, open windows and take off layers of clothes. For most of us, this is easier said than done. Remember to turn off your thermostat when you go to work and when you go to bed. If you forget, get a programmable thermostat. This can save a considerable amount of money on your heating bill.  Important facts to keep in mind: First it does not require more energy to reheat your home than it does to keep it at the same temperature. Second, turning the temperature up higher does not make the house warm up faster, it only makes the heater stay on longer after turning it off. 
  11. Stop using store catalogs and shop online. Most of the time you save money online anyway.
  12. Stop receiving junk mail. Millions of trees are lost each year on junk mail alone. You can try to get your name deleted from the junk mail sources or spend a little time and write on each junk mail received, "Return to Sender." You do not have to pay for the postage and eventually you will stop receiving mail from them.
  13. Print less often. Write down directions on small note pads, do not print emails. If you need to print there are free software programs out there that allow you to edit web pages to only print the content that you need.
  14. Ways to Save Water: 1. Take shorter showers  2.Turn the water off while shaving or brushing your teeth 3. Repair all toilet and faucet leaks immediately. A leaky toiled can waste up to 200 gallons of water per day, a leaky faucet a little less. 4. Be smart when irrigating your lawn and landscape. Only water when needed, early morning is best. 5. A water saving-energy efficient dish washer used with the right dishwashing soap can save water, energy and save money.
  15. Eat out less. Restaurants use more energy to produce your meals.  
  16. When staying at a hotel, practice what you do at home. Turn off the lights and television when you leave, don't waste water, turn off the A/C when you leave the room. Reuse your towels and use your own toiletries. The hotel's toiletries are cheap and are always over-packaged.
  17. Conserve and use less and transition to "living green." Use less shampoo, cleaning detergent, soap, toothpaste and paper products. It is amazing how much conserving saves you money and how beneficial it is in our fight to save the planet.
  18. Buy used: Search online classifieds and newspapers. You can find gently used furniture, appliances, cars, and many other things.
  19. These next two items are the easiest, quickest way to start "going green" and living more eco friendly. Invest a little money in reusable shopping bags ($1 to $5). My favorite is the Chico Bag that clips onto your purse or keys and are therefore hard to forget. Use them at the grocery store, the mall, or any other place where you need to pick up a few items. This not only saves plastic but it brings public awareness towards the living green movement. 
  20. Avoid using plastic water bottles. Instead buy reusable aluminum or stainless steel bottles at any Target or Sports shop. This truly helps in the effort to save our planet but it is also beneficial for our health. 
  21. If you have to use the one time use plastic water bottles, fill some bottles up (not completely full) and put them in the freezer. This increases the energy efficiency of your freezer by allowing it to run less and you can use the frozen water bottles when you need an ice pack. When they melt, it makes for a wonderfully cold drink.
  22. Save your left over's. You can save bread bags, butter containers, and other packages that you can use to store your left over food. Buy cheap labels at the dollar store and label everything.
  23. When possible avoid using disposable plates, cups and utensils. These cost a lot of money and take up a lot of space in our landfills.
  24. Use cloth diapers not disposable. It is not as difficult or inconvenient as most parents think it is. There are many great articles on the cloth versus disposable debate.

More difficult steps towards "going green."  Spend a little time and money in the short term, save money and/or save the planet in the long run.
  1. Composting your food and yard trimmings lessens the amount of garbage that is sent to landfills and also reduces the amount of pollution to the atmosphere.
  2. Efficient Landscaping:  This can save money, save energy and save the earth.
  3. Install solar panels. Solar is quickly becoming more affordable and efficient and many states have tax incentives now.
  4. To help get you motivated towards "going green" and eco friendly living, research incentives and tax rebates for home improvements at the U.S. Department of Energy
  5. Last but not least, PLANT A TREE. One tree, over its life will absorb over one ton of carbon dioxide and put healthy oxygen into the air.
Unfortunately there are a lot of people who believe that the problem is much too big for one person to make a difference. But that is simply not true. Every time you choose to recycle instead of throwing it in the trash, or walk to the store instead of drive, or spend a little extra money on organic and eco friendly products, you alone are making a difference. And if 100,000 people just made simple changes in their daily routine, our efforts will significantly improve our chance to save the earth and save the planet. For more detailed information, links and resources to start living a more eco friendly life, visit GreenGardenEcology [http://www.GreenGardenEcology.com](Article: Save Money). 
[http://www.GreenGardenEcology.com] Solar Garden Lights and accessories. Low priced solar lights and solar lighting options for your home and garden. Find ways to save money and stay energy efficient with our large selection of solar garden lights.
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Friday, July 29, 2011

Your Guide to Green Purchase

By 

Actually, we can save much of our money by not simply buy the things we don't need. Some people said that environmental protection is like live in jail, can't do things we like to do and no freedom, but this is not the case, protect the environment can be very fun and cool!
What is green purchase? Green purchase refers to buy things in a green way. The things you bought should contain minimum percentage of toxic, biodegradable or recyclable and do not use large amount of energy and emit a lot of pollutant in the production process.
If you as a consumer state your demand of green product to the supplier, they would produce it! Why certain factory have the technology to produce green product but they don't produce it? This is because normally the cost of production of green product is slightly higher, if consumer don't have the demand over green product, for sure the factory will not produce green product for maximum profit.
Do you know much people are starving in this world? Do you know that money spent on pet food of European and American (US$17bil) could have eliminated world hunger and malnutrition (US$19bil)? Why don't we use that amount of money to help those who really need that amount of money to survive?
As one of the resident on earth, i think we have the responsibility to protect the earth. So let's begin our first step: purchase things in a green way.
Here are the guidelines for green purchase.
  • Electric Appliances -- Choose electric appliances that have low energy consumption. Keep them clean and in good condition so it can have maximum performance and minimum energy consumption. Demand for eco-friendly and low energy consumption electric appliances from your local suppliers.
  • Meat -- Eat less meat and more vegetables.
  • Beverages -- Recycle the aluminium cans and bottles. Refill your mineral bottle instead buying a new one.
  • Handphones -- Think twice before you change your handphone. Recycle your old handphone. If you can't find a place to recycle your handphone, contact your handphone dealer.
  • Cleaning products -- Use natural and biodegradable cleaning agent such as baking powder, vinegar and hot water.
  • Clothing -- Buy less new clothes except needed. Donate unwanted clothes for charities.
  • Computer -- Buy computers that can be easily upgraded. Recycle your old computer or donate them to charities. Use Linux as your operating systems because it has lower hardware requirements and hence no need to upgrade your computer frequently.
  • CDs and DVDs -- Use rewritable CDs and DVDs.
  • Paper -- Recycle paper. Buy paper contains at least 30% of recycled content. Use both pages of paper for printing or writing. Cut down your paper usage by proess your document electronically.
  • Plastic bags -- Use durable cloth bags. Decline a plastic bag if you purchase a small and easy carry item
Here are the characteritics of green product.
  • Can be recycled
  • Have recycled content
  • Energy efficient
  • Emission reducing
  • Reusable
  • Bio-degradable
  • Organic
Please think twice a product is needed before buy it, consider the environmental impact of the product's life cycle ( from production from raw materials to desposal ). And finally you may gather the environmental information on products and suppliers on the internet before you buy it.
Still have doubts? Visit us for more details on green purchase.
I'm a webmaster of [http://english.wenapron.org] which is a website that discover environmental issues. I hope that people on this planet will care our mother nature more. So i put articles on how to solve environmental issues and in the same time sustainable develop 2 promote environmental protection.

Monday, June 6, 2011

Energy 101

Energy Explained Simply

Article Source: http://EzineArticles.com/5055109

Energy, it is fair to say, is a very vague concept. So where does one go to learn more? Does one have to take a physics course? I don't think so, and to test my theory, I have tried to explain energy as briefly as I can, right here.
Energy 101
Energy is what makes the world go round. Literally. Every neuron that sparks in your brain, every electron that fires down a wire, every molecule burning in a fire, carries with it a sort of momentum that it passes on like a baton in a complex relay race. The batons are flooding in all directions all around us and across the universe - they are energy and we have learned how to harness them.
The actual word "Energy" is a much abused term nowadays - because energy is used to represent such a disparate range of phenomena from heat to light to speed to weight, and because it seems to be able to change forms so readily, it is cannon fodder for pseudo-scientific and spiritual interpretation. However, you will be pleased to hear that it actually has a very clear (and consistent) nature.
I like to think of energy being a bit like money - it is a sort of currency that can be traded. It takes on various forms (dollars/pounds/Swiss francs) and can be eventually cashed in to achieve something. However, just like money, once spent, it does not vanish. It simply moves on a new chapter in its life and may be reused indefinitely.
To illustrate the point, let's follow a 'unit of energy' through a visit to planet Earth to see what I mean. The [number] shows every time it changes currency (see the key below).
The energy in our story starts off tied up in hydrogen atoms in the sun [1]. Suddenly, due to the immense pressure and heat, the nuclei of several atoms react to form a brand new helium atom, and a burst of radiation[2] is released. The radiation smashes into other nearby atoms heating them up so hot [4] that they glow, sending light [2] off into space. Several minutes pass in silence before the light bursts through the atmosphere and plunges down to the rainforest hitting a leaf. In the leaf the burst of power smashes a molecule of carbon dioxide and helps free the carbon to make food for the plant [3]. The plant may be eaten (giving food 'Calories'), or may fall to the ground and settle and age for millions of years turning perhaps to coal. That coal may be dug up and burned to give heat [4] in a power station, boiling water to supply compressed steam [5] that may drive a turbine [6] which may be used to generate electricity [7] which we may then use in our homes to heat/light/move/cook or perhaps to recharge our mobile phone [3]. That energy will then be used to transmit microwaves when you make a call [2] which will mostly dissipate into the environment heating it (very) slightly [4]. Eventually the warmed earth radiates [2] this excess of heat off into the void where perhaps it will have another life...
Energy currencies:
[1] Matter is energy, according the Einstein, and the quantity relates to mass according to E=mc^2 (c is a constant equal to the speed of light).
[2] Radiation (like sunlight) is a flow of energy, and energy content relates the frequency according to E=hf (h is the Planck constant).
[3] Chemical energy - the most complex energy, a mixture of different tensions in nuclear and electromagnetic force fields.
[4] Thermal (heat) energy- this is really just a sneaky form of kinetic energy [6 below] - small particles moving and vibrating fast are sensed by us as heat.
[5] Compression (or tension) energy - while compressed air is again a sneaky form of kinetic energy
[6], a compressed spring is different - it's energy is more like chemical energy and is stored by creating tension in the force fields present in nature (gravity, electromagnetism and nuclear forces).
[6] Kinetic energy - is energy by virtue of movement (like a speeding bullet or unstoppable train)
[7] Electrical energy - this energy, like a compressed spring, is stored as stress in force fields, in this case electromagnetic force-fields.
This short story is testament to an enormous quantity of learning by our species, but there are some clear exclusions to be read into the story:
  • Energy fields (auras) or the energy lines in the body that conduct the "chi" (or life force) of Asian medical tradition
  • Energy lines on the Earth (aka Ley lines)
  • Negative or positive energy (as in positive or negative "vibes")
These energy currencies relate to theories and beliefs that science has been unable to verify and thus they have no known "exchange rate". Asking how many light bulbs can you power with your Chi is thus a nonsensical question, whereas it would not be for any scientifically supported form of energy. And since energy flows account for all actions in the universe, not being exchangeable would be rather limiting.
Where exactly is Energy kept?
This may sound like s strange question, we know Energy is kept in batteries, petrol tanks and chocolate chip cookies. But the question is, where exactly is it stored in those things?
Energy is stored in several ways:
  • as movement - any mass moving has energy by virtue of the movement, which is called Kinetic Energy
  • as matter - Einstein figured out that matter is just a form of energy, and the exchange rate is amazing - 1g = 90,000,000,000,000,000 joules (from E=mc^2)
  • as tension in force fields
That last one sounds a bit cryptic, but actually most of the energy we use is in this form - petrol, food, batteries and even a raised hammer all store energy in what are essentially compressed (or stretched springs).
What is a force field? Why on earth did I have to bring that up?
All of space (even the interstellar vacuum) is permeated by force fields. The one we all know best is gravity - we know that if we lift a weight, we have to exert effort and that effort is then stored in that weight and can be recovered later by dropping it on your foot.
Gravity is only one of several force fields known to science. Magnetic fields are very similar - it takes energy to pull a magnet off the fridge, and so it is actually an energy store when kept away from the fridge.
The next force field is that created by electric charge (the electric field). For many years this was though to be a field all on its own but a chap called James Clerk Maxwell realised that electric fields and magnetic fields are in some senses two sides of the same coin, so physicists now talk of 'electromagnetic' fields. It turns out that electric energy (such as that stored in a capacitor) consists of tensions in this field, much like a raised weight is a tension in a gravity field. Perhaps surprisingly, light (as well as radio waves, microwaves and x-rays) are also energy stored in fluctuations of an energy field.
Much chemical energy is also stored in electric fields - for example, most atoms consist of positively charged nuclei and negatively charged electrons, and the further apart they are kept, the more energy they hold, just liked raised weights. As an electron is allowed to get closer to the nucleus, energy is released (generally as radiation, such as light - thus hot things glow).
The least well known force field is the strong 'nuclear' force. This is the forces that holds the subatomic particles (protons) together in the nucleus of atoms. Since the protons are all positively charged, they should want to repel each other, but something is keeping them at bay, and so physicists have inferred this force field must exist. It turns out their theory holds water, because if you can drag these protons a little bit apart, they will suddenly fly off with gusto. The strong nuclear force turns out to be bloody strong, but only works over a tiny distance. It rarely affects us as we rarely store energy with this energy field.
Now we understand force fields we can look at how molecules (petrol, oxygen, chocolate) store energy. All molecules are made of atoms connected to one other via various 'bonds' and these bonds are like springs. Different types of molecules have different amount of tension in these bonds - it turns out coal molecules, created millions of years ago with energy from the sun, are crammed full of tense bonds that are dying to re-arrange to more relaxed configurations, which is exactly what happens when we apply oxygen and the little heat to start the reaction.
The complexity of the tensions in molecules are perhaps the most amazing in nature, as it is their re-arrangements that fuel life as we know it.
What exactly is Heat then?
You may have noticed that I did not include heat as a form of energy store above. But surely hot things are an energy store?
Yes, they are, but heat is actually just a sort of illusion. We use heat as a catch all term to describe the kinetic energy of the molecules and atoms. If you have a bottle of air, the temperature of the air is a direct consequence of the average speed of the molecules of gas jetting around bashing into one another.
As you heat the air, you are actually just increasing the speed of particles. If you compress the air, you may not increase their speed, but you will have more particles in the same volume, which also 'feels' hotter.
Solids are a little different - the atoms and molecules in solids do not have the freedom to fly around, so instead, they vibrate. It is like each molecule is constrained by elastic bands pulling in all directions. If the molecule is still, it is cold, but if it is bouncing around like a pinball, then it has kinetic energy, and feels hotter.
You can see from this viewpoint, that to talk of the temperature of an atom, or of a vacuum, is meaningless, because temperature is a macroscopic property of matter. On the other hand, you could technically argue that a flying bullet is red hot because it has so much kinetic energy...
Is Energy Reusable?
We as a species, have learned how to tap into flows of energy to get them to do our bidding. So big question: Will we use it all up?
Scientists have found that energy is pretty much indestructible - it is never "used-up", it merely flows from one form into another. The problem is thus not that we will run out, but that we might foolishly convert it all into some unusable form.
Electricity is an example of really useful energy - we have machines that convert electricity into almost anything, whereas heat is only useful if you are cold, and light is only useful if you are in the dark.
Engineers also talk about the quality (or grade) of energy. An engineer would always prefer 1 litre of water 70 degrees warmer than room temperature, than 70 litres of water 1 degree warmer, even though these contain roughly the same embodied energy. You can use the hot water to boil an egg, or make tea, or you could mix it with 69 litres of room temperature water to heat it all by 1 degree. It is more flexible.
Unfortunately, most of the machines we use, turn good energy (electricity, petrol, light) into bad energy (usually "low grade heat").
Why is low grade heat so bad? It turns out we have no decent machine to convert low grade heat into other forms of energy. In fact we cannot technically convert any forms of heat into energy unless we have something cold to hand which we are also willing to warm up; our machines can thus only extract energy by using hot an cold things together. A steam engine relies just as much on the environment that cools and condenses water vapour as it does on the coal its belly. Power stations rely on their cooling towers as much as their furnaces. It turns out that all our heat machines are stuck in this trap.
So, in summary, heat itself is not useful - it is temperature differences that we know how to harness, and the bigger the better.
This picture of energy lets us think differently about how we interact with energy. We have learned a few key facts:
  1. Energy is not destroyed, and cannot be totally used up - this should give us hope
  2. Energy is harnessed to do our dirty work, but tends to end up stuck in some 'hard to use' form
So all we need to do to save ourselves is:
  1. Re-use the same energy over and over
  2. by finding some way to extract energy from low grade heat
Alas, this is a harder nut to crack than fission power, so I am not holding my breath. It turns out that there is another annoying universal law (the Second Law of Thermodynamics) that says that every time energy flows, it will somehow become less useful, like water running downhill. This is because energy can only flow one way: from something hot to something cold - thus once something hot and something cold meet and the temperature evens out, you have forever lost the useful energy you had.
It is as if we had a mountain range and were using avalanches to drive our engines. Not only will our mountains get shorter over time but our valleys will fill up too, and soon we will live on a flat plane and our engines will be silent.
The Big Picture
So the useful energy in the universe is being used up. Should we worry?
Yes and no.
Yes, you should worry because locally we are running out of easy sources of energy and will now have to start using sustainable ones. If we do not ramp up fast enough we will have catastrophic shortages.
No, should should no worry that we will run out, because there are sustainable sources - the sun pumps out so much more than we use, it is virtually limitless.
Oh, and yes again - because burning everything is messing up the chemistry of the atmosphere, which is also likely to cause catastrophe. Good news is that the solution to this is the same - most renewable energy sources do not have this unhappy side effect.
Oh, and in the really long term, yes we should worry again. All the energy in the universe will eventually convert to heat, and the heat will probably spread evenly throughout the universe, and even though all the energy will still be present and accounted for, it would be impossible to use and the universe would basically stop. Pretty dismal, but this is what many physicists believe: we all exist in the eddy currents of heat flows as the universe gradually heads for a luke-warm, and dead, equilibrium.
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If you liked this article, you might like my series on efficient motoring.
Jarrod R. Hart is a scientist and engineer currently working in California.
Read his blog at http://www.TheProvincialScientist.com


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