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Casual Articles - Understanding the Octal Numbering System
In a recent article by the Bureau of National Affairs some staggering information was reported. In the article we learn that over 25% of appraisers admitted to inflating approximately 50% of their appraisals! Approximately 55% of appraisers reported that they are pressured by realtor's or mortgage brokers to meet predetermined values (contract sales prices). According to Fannie Mae, 99.5% of appraisals meet the contract price. So there you have it. Properties are appraised everyday for amounts significantly in excess of their real values to meet pressures for sales prices and financing. This is probl
Follow the rule for determining the positional values for the system. Start at one and multiply it by the base (two) so the position to the left of the one position is two (1 X 2). The next position to the left is the two position times the base (2) or 4 (2 X 2). The next position
Mesothelioma is a rare form of cancer that develops by exposure to asbestos. Asbestos is considered as one of the most hazardous and deadliest toxic substances. Symptoms in the early stages do not show the disease, since the disease is non-specific in the initial stages for both the patients and their doctors. But, the life of the patient can be prolonged if the disease is diagnosed at the right time. The person who has the disease or any of the person's family members can claim for the compensation in the mesothelioma lawsuit.The person who has been exposed to asbestos can claim the compensat
Each number system has one character multiplier values in it that range from zero to one less than the base of the number system. In decimal, the multipliers are 0 - 9.
When we look at the number 123, we just accept it as the decimal value, but in number system theory, it is the sum of all multipliers times the positional value for the multiplier. Follow this example:
3 X 1 = 3
2 X 10 = 20
1 X 100 = 100
Add up the numbers to the right of the equal signs (3 + 20 + 100) and you get 123.
You have heard that computers use binary. This is because in electrical circuits there is an on or on off value (two possible values). The base for binary is two (2). Follow the rule for multipliers that they will be from 0 to one less than the base of the system so the multipliers for binary are zero and one.
Follow the rule for determining the positional values for the system. Start at one and multiply it by the base (two) so the position to the left of the one position is two (1 X 2). The next position to the left is the two position times the base (2) or 4 (2 X 2). The next position t
In marketing circles, it’s well-known that an ad has about nine seconds to grab a reader’s attention. Nine seconds. That’s not much time. Unfortunately, it’s probably the same amount of time your story or article has to draw your reader in. That’s why an effective lead is a must-have for every piece of writing.In case you don’t have a journalism background, when I say lead, I mean the opening paragraph or two. That small bit of text is what has to grab your reader and keep them reading—in just nine seconds. I also want to start with a warning. Not every type of lead will fit
Each number system has one character multiplier values in it that range from zero to one less than the base of the number system. In decimal, the multipliers are 0 - 9.
When we look at the number 123, we just accept it as the decimal value, but in number system theory, it is the sum of all multipliers times the positional value for the multiplier. Follow this example:
3 X 1 = 3
2 X 10 = 20
1 X 100 = 100
Add up the numbers to the right of the equal signs (3 + 20 + 100) and you get 123.
You have heard that computers use binary. This is because in electrical circuits there is an on or on off value (two possible values). The base for binary is two (2). Follow the rule for multipliers that they will be from 0 to one less than the base of the system so the multipliers for binary are zero and one.
Follow the rule for determining the positional values for the system. Start at one and multiply it by the base (two) so the position to the left of the one position is two (1 X 2). The next position to the left is the two position times the base (2) or 4 (2 X 2). The next position
Sharing an apartment with roommates can be a fun experience. This experience can turn bad if you don't see eye to eye on certain things. Some examples include : 1) Playing loud music 2) Leaving a mess everywhere 3) Not doing dishes. 4) Bringing uninvited guests over. This list can go on and on.. How much tolerance do you have for these problems? How do you handle them?Well, these problems can be handled regardless of its nature. One thing to keep in mind is to act rationally and think before you act. Sometimes, it can get to the point where you want to literally
When we look at the number 123, we just accept it as the decimal value, but in number system theory, it is the sum of all multipliers times the positional value for the multiplier. Follow this example:
3 X 1 = 3
2 X 10 = 20
1 X 100 = 100
Add up the numbers to the right of the equal signs (3 + 20 + 100) and you get 123.
You have heard that computers use binary. This is because in electrical circuits there is an on or on off value (two possible values). The base for binary is two (2). Follow the rule for multipliers that they will be from 0 to one less than the base of the system so the multipliers for binary are zero and one.
Follow the rule for determining the positional values for the system. Start at one and multiply it by the base (two) so the position to the left of the one position is two (1 X 2). The next position to the left is the two position times the base (2) or 4 (2 X 2). The next position
Should you, as a homeowner, looking to sell your home, consider selling the property yourself or take the conventional route and engage a Realtor? That is the preverbal $64,000 question – or if you use the national average sale price of existing homes of $268,000 – the $16,000 question. Based on pure value, this is a question that really should at least merit consideration.Obviously For Sale by Owner (FSBO) is not for everyone. I really don’t know why that statement has to be made – NOTHING (with the exception of air and water) is for everyone. Now back to the point at hand.Why shou
1 X 100 = 100
Add up the numbers to the right of the equal signs (3 + 20 + 100) and you get 123.
You have heard that computers use binary. This is because in electrical circuits there is an on or on off value (two possible values). The base for binary is two (2). Follow the rule for multipliers that they will be from 0 to one less than the base of the system so the multipliers for binary are zero and one.
Follow the rule for determining the positional values for the system. Start at one and multiply it by the base (two) so the position to the left of the one position is two (1 X 2). The next position to the left is the two position times the base (2) or 4 (2 X 2). The next position
I’ve had some very interesting meetings over the last couple of weeks with organisations that, on the surface, seem to have it all together. They are well branded names, they seem to have the right people in the right seats on the bus, they pay well, they do all they can to develop their staff, and the list could go on. However, what they don’t seem to have is a culture of getting things done.This has severe consequences, not only internally on frustration levels and time wasted on incessant follow-up, but more importantly on service delivery to the customer. We are all customers at some time
Follow the rule for determining the positional values for the system. Start at one and multiply it by the base (two) so the position to the left of the one position is two (1 X 2). The next position to the left is the two position times the base (2) or 4 (2 X 2). The next position to the left is the four position times two (4 X 2) or 8. Here are the first few positional values in binary:
256 - 128 - 64 - 32 - 16 - 8 - 4 - 2 - 1
Notice that each position is doubled the value to its right. This makes sense since the base is two and we are multiplying each positional value by two to get the value of the next position to the left.
Let's look at this binary number.
10011
To convert this to decimal, we multiply the positional value by the multiplier.
1 X 1 = 1
1 X 2 = 2
0 X 4 = 0
0 X 8 = 0
1 X 16 = 16
Now add up the values to the right of the equal sign and we get 19 decimal for the binary number 10011.
What is the decimal value of 111 binary? If you got 7 decimal then you understand how binary works.
1 X 1 = 1
1 X 2 = 2
1 X 4 = 4
1 + 2 + 4 = 7
Convert one more binary number - 1000000. If you got 64 decimal, you are right.
Now, with this background in number system rules and examples, let's move on to the octal numbering system. As the name implies, the base for the octal numbering system is eight (8). Since the rule for the multiplier values says that the multipliers will be zero through one less than the base, the multipliers will be 0 - 7.
The positional values start with one. The next position to the left is one time the base (8). 1 X 8 = 8. The next position is the 8 position times 8 or 64. The fi
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