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Ab Dazzling is from a family that is not rich nor poor but he has what it's takes him to have in life.
Birth Name: Abasifreke Udeme Ibanga.
Location: Akwa Ibom State.
L.G.A.: Essien Udim L.G.A
DOB : 15th march 2001
Gender: Male ☆
You may ask why he bears Ab Dazzling.
Ab is the first,two letter of my name.
Dazzling came in when he discover his self to be a shinning star ★.
BIBLICALLY
Ab
(father ), an element in the composition of many proper names, of which Abba is a Chaldaic form, having the sense of "endowed with," "possessed of."
Bibliography Information
Smith, William, Dr. "Entry for 'Ab'". "Smith's Bible Dictionary". . 1901.
Dictionaries - Smith's Bible Dictionary - Ab
Ab.
See MONTH.
Bibliography Information
Smith, William, Dr. "Entry for 'Ab'". "Smith's Bible Dictionary". . 1901.
Encyclopedias - International Standard Bible Encyclopedia - Ab (1)
AB (1)
('abh, the Hebrew and Aramaic word for "father" :
It is a very common word in the Old Testament; this article notes only certain uses of it. It is used both in the singular and in the plural to denote a grandfather or more remote ancestors (e.g. Jeremiah 35:16,15 ). The father of a people or tribe is its founder, not, as is frequently assumed, its progenitor. In this sense Abraham is father to the Israelites (see, for example, Genesis 17:11-14,27 ), Isaac and Jacob and the heads of families being fathers in the same modified sense. The cases of Ishmael, Moab, etc., are similar. The traditional originator of a craft is the father of those who practice the craft (e.g. Genesis 4:20,21,22 ). Sennacherib uses the term "my fathers" of his predecessors on the throne of Assyria, though these were not his ancestors ( 2?Kings 19:12 ). The term is used to express worth and affection irrespective of blood relation (e.g. 2?Kings 13:14 ). A ruler or leader is spoken of as a father. God is father. A frequent use of the word is that in the composition of proper names, e.g. Abinadab, "my father is noble." See ABI .
The Aramaic word in its definite form is used three times in the New Testament ( Mark 4:6 ), the phrase being in each case "Abba Father," addressed to God. In this phrase the word "Father" is added, apparently, not as a mere translation, nor to indicate that Abba is thought of as a proper name of Deity, but as a term of pleading and of endearment. See also ABBA .
Willis J. Beecher
Copyright Statement
These files are public domain.
Bibliography Information
Orr, James, M.A., D.D. General Editor. "Entry for 'AB (1)'". "International Standard Bible Encyclopedia". 1915.
Encyclopedias - International Standard Bible Encyclopedia - Ab (2)
AB (2)
('abh):
The name of the fifth month in the Hebrew calendar, the month beginning in our July. The name does not appear in the Bible, but Josephus gives it to the month in which Aaron died (Ant., IV, iv, 6; compare Numbers 33:38).
Copyright Statement
These files are public domain.
Bibliography Information
Orr, James, M.A., D.D. General Editor. "Entry for 'AB (2)'". "International Standard Bible Encyclopedia". 1915.
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Do You Know How To Keep Your Eyes Bright and Dazzling?


by ab dazzling

Do you know how to keep your eyes bright and dazzling? Our eyes can quickly become tired and irritated because of things such as a windy day, medications, and frequent use of electronic devices. By the end of the day, our eyes often feel gritty, sore and dry. Fortunately, there are ways to pamper our eyes and keep them healthy, bright, and sparkling, (while still making a fashion statement, of course!)
Disclaimer: My husband has been in the optical profession for well over 40 years and recently I asked him to help write this post. We are not doctors or healthcare professionals. Please do your own research and talk to your health care professional regarding your vision care.
To help support our blogging activities, our site contains affiliate links. If you make a purchase from a link on our site, we may receive a small percentage of that sale, at no extra cost to you. Blessed Beyond Crazy is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to amazon.com.
It should come as no surprise that a healthy diet and exercise affect the overall health of our eyes. For example, exercise helps improves blood circulation and increases oxygen levels to our eyes.
Eat a balanced and healthy diet; one that includes plenty of fresh fruits, green leafy vegetables , omega-3 fatty acids, beta-carotene, and lycopene. Some studies indicate that drinking tea and taking a Bilberry supplement can also help our vision.
Doctors suggest that adults have a yearly eye examination and children have their eyes examined at six months old, three years old, before the first grade, and then every two years until their eighteenth birthday. Many eye diseases and disorders are hereditary and can only be detected by an optometrist or ophthalmologist.
Warning signs of some eye conditions are:
difficulty adjusting to light or dark
unusual sensitivity
pain
a change in the color of the iris or lids
trouble focusing
double vision
dry or watery eyes
dark spots or halos
flashes of light
loss of peripheral vision
There are two types of blue light: Beneficial Blue Light (or blue-turquoise light) and Harmful Blue Light (or blue-violet light). Beneficial Blue Light helps regulate our sleep/wake cycle and is essential to pupil function and physical and emotional health. Harmful Blue Light is everywhere: the sun, computer screens, tablets, smartphones, gaming devices, LED TVs & LED lights, and fluorescent lights.
Overexposure to Harmful Blue Light can cause computer vision syndrome (CVS) and damage to the retina. Symptoms of CVS include eye strain, headaches, blurred vision, and dry eyes.
Here are a few things you can do to prevent eye strain:
Set the center of your computer screen 4 to 5 inches below eye level and 20 to 28 inches away from your eyes.
Reduce glare on your computer from windows and lights by using an anti-glare screen on your computer.
Every 20 minutes, look away about 20 feet in front of you for 20 seconds. This can help reduce eyestrain.
Make sure your glasses and/or contact lens prescription is up-to-date.
If your eyes are dry, blink more and use artificial tears.
At least every 2 hours, get up and take a 15-minute break.
Do daily eye exercises.
Exposure to UV rays can have a permanent effect on our eyes. These invisible UV rays can also lead to irreversible damage to our eyes. That’s why we all need to get into a habit of wearing protective eye-wear when we work or play outdoors, even on cloudy days.
It truly is worth investing in a premium pair of sunglasses that have an anti-reflective (AR) coating on both the front and backside of the lenses. In addition to UV protection, look for quality glasses that offer durability, are impact resistant, and have polarized lenses.

Greatness

Current, voltage and resistance are three important concepts in electronics. I didn’t have a clue about these things when I started out. But I could still build fun things, by following the circuit diagrams I found. I just didn’t know what was going on.
When I started learning about basic electricity in school, many pieces started to fall into place. I started understanding some of the explanations from the circuit diagrams I built.
I like to focus on the practical parts of electronics. But learning some theory as you progress is also really useful. So in today’s article you will learn the basics of current, voltage and resistance.
Basic Electricity
When you connect a small light bulb to the positive and the negative side of a battery, you will get a closed circuit where electrons can flow between the terminals and make the lamp shine. Inside the wires of this circuits, you will have electrons flowing.
When I started out in electronics, I misunderstood something. I thought that when a battery got connected, the electrons started from the battery and had to travel all the way through the wire, up to the bulb, before it was lit. But this is not the case.
A wire already has electrons in it. And when you connect a battery and make a closed circuit, they start to move. It’s like a pipe filled with marbles. When you put a marble in on one side, another comes out on the other side right away. You don’t have to wait. It happens momentarily.
The Confusing Direction of Current
The direction of the current is a bit confusing. Does the current flow from the positive to the negative terminal of a circuit? Or the other way around? In some diagrams, you see an arrow from the positive to the negative terminal. In other diagrams, the opposite.
First of all, let me say this: It doesn’t really matter!
When you need to do calculations, all you need to do is to decide on a direction and make your calculations based on that direction. No matter which direction you chose – the results will be the same.
But what is right?
No direction is the “right” direction. Current can flow both ways, depending on if there are positive or negative charge carriers at work. In metals, we have negative charge carriers. Also called electrons. They flow from negative to positive.
So, in a normal electric circuit based on metal, electrons will flow from the
negative terminal to the positive . But, the conventional way of talking about current direction is from positive to negative . ( Learn more on this from Wikipedia )
Current, Voltage and Resistance
In a circuit, current is the flow of electrons. Voltage is the electrical potential difference between two points. Resistance is something that resists the flow of electrons.
If this sounds Greek to you, don’t worry. Think about it this way: If you have water running in a pipe, the amount of water running is the equivalent of the current in an electrical circuit.
Then imagine that the pipe is clogged at some point. And only a little bit of water gets through. The water pressure on one side of the clog will be higher than on the other side. This difference in pressure between the two points is the equivalent to voltage. You always measure voltage as a voltage difference between two points.
The clog itself would be the resistance.
Current is measured in Amp or A
Voltage is measured in Volt or V
Resistance is measured in Ohm or
The relationship between current, voltage and resistance is called Ohm’s Law .
Here is a nice illustration:Current, voltage and resistance are three important concepts in electronics. I didn’t have a clue about these things when I started out. But I could still build fun things, by following the circuit diagrams I found. I just didn’t know what was going on.
When I started learning about basic electricity in school, many pieces started to fall into place. I started understanding some of the explanations from the circuit diagrams I built.
I like to focus on the practical parts of electronics. But learning some theory as you progress is also really useful. So in today’s article you will learn the basics of current, voltage and resistance.
Basic Electricity
When you connect a small light bulb to the positive and the negative side of a battery, you will get a closed circuit where electrons can flow between the terminals and make the lamp shine. Inside the wires of this circuits, you will have electrons flowing.
When I started out in electronics, I misunderstood something. I thought that when a battery got connected, the electrons started from the battery and had to travel all the way through the wire, up to the bulb, before it was lit. But this is not the case.
A wire already has electrons in it. And when you connect a battery and make a closed circuit, they start to move. It’s like a pipe filled with marbles. When you put a marble in on one side, another comes out on the other side right away. You don’t have to wait. It happens momentarily.
The Confusing Direction of Current
The direction of the current is a bit confusing. Does the current flow from the positive to the negative terminal of a circuit? Or the other way around? In some diagrams, you see an arrow from the positive to the negative terminal. In other diagrams, the opposite.
First of all, let me say this: It doesn’t really matter!
When you need to do calculations, all you need to do is to decide on a direction and make your calculations based on that direction. No matter which direction you chose – the results will be the same.
But what is right?
No direction is the “right” direction. Current can flow both ways, depending on if there are positive or negative charge carriers at work. In metals, we have negative charge carriers. Also called electrons. They flow from negative to positive.
So, in a normal electric circuit based on metal, electrons will flow from the
negative terminal to the positive . But, the conventional way of talking about current direction is from positive to negative . ( Learn more on this from Wikipedia )
Current, Voltage and Resistance
In a circuit, current is the flow of electrons. Voltage is the electrical potential difference between two points. Resistance is something that resists the flow of electrons.
If this sounds Greek to you, don’t worry. Think about it this way: If you have water running in a pipe, the amount of water running is the equivalent of the current in an electrical circuit.
Then imagine that the pipe is clogged at some point. And only a little bit of water gets through. The water pressure on one side of the clog will be higher than on the other side. This difference in pressure between the two points is the equivalent to voltage. You always measure voltage as a voltage difference between two points.
The clog itself would be the resistance.
Current is measured in Amp or A
Voltage is measured in Volt or V
Resistance is measured in Ohm or
The relationship between current, voltage and resistance is called Ohm’s Law .
Here is a nice illustration:Current, voltage and resistance are three important concepts in electronics. I didn’t have a clue about these things when I started out. But I could still build fun things, by following the circuit diagrams I found. I just didn’t know what was going on.
When I started learning about basic electricity in school, many pieces started to fall into place. I started understanding some of the explanations from the circuit diagrams I built.
I like to focus on the practical parts of electronics. But learning some theory as you progress is also really useful. So in today’s article you will learn the basics of current, voltage and resistance.
Basic Electricity
When you connect a small light bulb to the positive and the negative side of a battery, you will get a closed circuit where electrons can flow between the terminals and make the lamp shine. Inside the wires of this circuits, you will have electrons flowing.
When I started out in electronics, I misunderstood something. I thought that when a battery got connected, the electrons started from the battery and had to travel all the way through the wire, up to the bulb, before it was lit. But this is not the case.
A wire already has electrons in it. And when you connect a battery and make a closed circuit, they start to move. It’s like a pipe filled with marbles. When you put a marble in on one side, another comes out on the other side right away. You don’t have to wait. It happens momentarily.
The Confusing Direction of Current
The direction of the current is a bit confusing. Does the current flow from the positive to the negative terminal of a circuit? Or the other way around? In some diagrams, you see an arrow from the positive to the negative terminal. In other diagrams, the opposite.
First of all, let me say this: It doesn’t really matter!
When you need to do calculations, all you need to do is to decide on a direction and make your calculations based on that direction. No matter which direction you chose – the results will be the same.
But what is right?
No direction is the “right” direction. Current can flow both ways, depending on if there are positive or negative charge carriers at work. In metals, we have negative charge carriers. Also called electrons. They flow from negative to positive.
So, in a normal electric circuit based on metal, electrons will flow from the
negative terminal to the positive . But, the conventional way of talking about current direction is from positive to negative . ( Learn more on this from Wikipedia )
Current, Voltage and Resistance
In a circuit, current is the flow of electrons. Voltage is the electrical potential difference between two points. Resistance is something that resists the flow of electrons.
If this sounds Greek to you, don’t worry. Think about it this way: If you have water running in a pipe, the amount of water running is the equivalent of the current in an electrical circuit.
Then imagine that the pipe is clogged at some point. And only a little bit of water gets through. The water pressure on one side of the clog will be higher than on the other side. This difference in pressure between the two points is the equivalent to voltage. You always measure voltage as a voltage difference between two points.
The clog itself would be the resistance.
Current is measured in Amp or A
Voltage is measured in Volt or V
Resistance is measured in Ohm or
The relationship between current, voltage and resistance is called Ohm’s Law .
Here is a nice illustration: