Taghba, Israel

ArtsWNews June, 2011

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Reflections, Little Cranberry Lake, Fidalgo Island, WA

$0.65 @ an estate sale

Page 8

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artisan de l'image

The beautiful 5th-century figurative mosaic floor is the earliest known example of a figured pavement in Palestinian Christian art.

Raising money for Caritas Bakhita House, Westminster

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multiplication

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Essence of commutative law on multiplication

(01).

[^^^] = [ (Fortune, $2) , Add 3 times ]

= [ (Fortune, $2) + (Fortune, $2) + (Fortune, $2) ]

= [ (Fortune, $2), Multiply 3 times ]

= [ (Fortune, $2) X 3(times) ]

= [ (Fortune, $2) X 3 ]

= [ 3 X (Fortune, $2) ]

= [ 3(times) X (Fortune, $2) ] <- Does this make sense?

(02).

[^^^] = [ (Debt, $2), Add 3 times ]

= [ (Debt, $2) + (Debt, $2) + (Debt, $2) ]

= [ (Debt, $2), Multiply 3 times ]

= [ (Debt, $2) X 3(times) ]

= [ (Debt, $2) X 3 ]

= [ 3 X (Debt, $2) ]

= [ 3(times) X (Debt, $2) ] <- Does this make sense?

(03).

[^^^] = [ (+2), Add 3 times ]

= [ (+2) + (+2) + (+2) ]

= [ (+2), Multiply 3 times ]

= [ (+2) X 3(times) ]

= [ (+2) X 3 ]

= [ 3 X (+2) ]

= [ 3(times) X (+2) ] <- Does this make sense?

(04).

[^^^] = [ (-2), Add 3 times ]

= [ (-2) + (-2) + (-2) ]

= [ (-2), Multiply 3 times ]

= [ (-2) X 3(times) ]

= [ (-2) X 3 ]

= [ 3 X (-2) ]

= [ 3(times) X (-2) ] <- Does this make sense?

(05).

[^^^] = [ (Fortune, $3) , Add 2 times ]

= [ (Fortune, $3) + (Fortune, $3) ]

= [ (Fortune, $3), Multiply 2 times ]

= [ (Fortune, $3) X 2(times) ]

= [ (Fortune, $3) X 2 ]

= [ 2 X (Fortune, $3) ]

= [ 2(times) X (Fortune, $3) ] <- Does this make sense?

(06).

[^^^] = [ (Debt, $3), Add 2 times ]

= [ (Debt, $3) + (Debt, $3) ]

= [ (Debt, $3), Multiply 2 times ]

= [ (Debt, $3) X 2(times) ]

= [ (Debt, $3) X 2 ]

= [ 2 X (Debt, $3) ]

= [ 2(times) X (Debt, $3) ] <- Does this make sense?

(07).

[^^^] = [ (+3), Add 2 times ]

= [ (+3) + (+3) ]

= [ (+3), Multiply 2 times ]

= [ (+3) X 2(times) ]

= [ (+3) X 2 ]

= [ 2 X (+3) ]

= [ 2(times) X (+3) ] <- Does this make sense?

(08).

[^^^] = [ (-3), Add 2 times ]

= [ (-3) + (-3) ]

= [ (-3), Multiply 2 times ]

= [ (-3) X 2(times) ]

= [ (-3) X 2 ]

= [ 2 X (-3) ]

= [ 2(times) X (-3) ] <- Does this make sense?

(09).

[^^^] = [ Add (Fortune $6) ] = [ (Fortune $6) ]

= [ + (+6) ] = [ (+6) ]

= [ (+6) ] = [ (+6) ]

= [ (6) ] = [ (6) ]

= [ 6 ] = [ 6 ]

* (Add) is not (addition sign) but (Adding up).

* (Adding up) is free from Life and Dead.

= [ (Fortune, $2), Add the thing to multiply 3 times ] = [ + { (+2) X 3 } ]

= [ (Fortune, $2), Multiply 3 times ]

= [ (Fortune, $2) X 3(times) ]

= [ (Fortune, $2) X 3 ] = [ (+2) X 3 ]

= [ (Fortune, $6) ] = [ (+6) ]

= [ (Fortune, $3), Add the thing to multiply 2 times ] = [ + { (+3) X 2 } ]

= [ (Fortune, $3), Multiply 2 times ]

= [ (Fortune, $3) X 2(times) ]

= [ (Fortune, $3) X 2 ] = [ (+3) X 2 ]

= [ (Fortune, $6) ] = [ (+6) ]

= [ (Fortune, $6) ] = [ (Fortune, $2) X 3(times) ] = [ (Fortune, $3) X 2(times) ]

= [ (+6) ] = [ (+2) X 3(times) ] = [ (+3) X 2(times) ]

= [ + { (+6) } ] = [ + { (+2) X 3(times) } ] = [ + { (+3) X 2(times) } ]

= [ + { (+6) } ] = [ + { (+2) X 3 } ] = [ + { (+3) X 2 } ]

= [ + { (+6) } ] = [ + { (+2) X (3) } ] = [ + { (+3) X (2) } ]

= [ + { (+6) } ] = [ { (+2) X (+3) } ] = [ { (+3) X (+2) } ]

= [ + (+6) ] = [ (+2) X (+3) ] = [ (+3) X (+2) ]

= [ (+6) ] = [ (+2) X (+3) ] = [ (+3) X (+2) ]

<- Does (essence of commutative law) catches your eyes?

[^^^] = [ Law of Liuhui Brahmagupta ]

= [ (+2) X (+3) ] = [ (+3) X (+2) ]

= [ + { (+2) X (3) } ] = [ + { (+3) X (2) } ]

= [ + { (+2) X 3 } ] = [ + { (+3) X 2 } ]

= [ + { (+6) } ] = [ + { (+6) } ]

= [ { (+6) } ] = [ { (+6) } ]

= [ (+6) ] = [ (+6) ]

= [ (6) ] = [ (6) ]

= [ 6 ] = [ 6 ]

(10).

[^^^] = [ Add (Debt, $6) ] = [ Subtract (Fortune, $6) ] = [ (Debt, $6) ]

= [ + (-6) ] = [ - (+6) ]

= [ + (-6) ] = [ + (-6) ]

= [ (-6) ] = [ (-6) ]

= [ Add (Debt, $6) ] = [ + (-6) ]

= [ (Debt, $2) , Add the thing to multiply 3 times ] = [ + { (-2) X 3 } ]

= [ (Debt, $2) , Multiply 3 times ]

= [ (Debt, $2) X 3(times) ]

= [ (Debt, $2) X 3 ] = [ (-2) X 3 ]

= [ (Debt, $6) ] = [ (-6) ]

= [ Subtract (Fortune, $6) ] = [ - (+6) ]

= [ (Fortune, $3) , Subtract the thing to mutiply 2 times ] = [ - { (+3) X 2 } ]

= [ - { (Fortune, $3) X 2(times) } ]

= [ - { (Fortune, $3) X 2 } ] = [ - { (+3) X 2 } ]

= [ - { (Fortune, $6) } ] = [ - { (+6) } ]

= [ - (Fortune, $6) ] = [ - (+6) ]

= [ Add (Debt, $6) ] = [ Subtract (Fortune, $6) ]

= [ + (-6) ] = [ - (+6) ]

= [ + { (Debt, $2) X 3(times) } ] = [ - { (Fortune, $3) X 2(times) } ]

= [ + { (-2) X 3 } ] = [ - { (+3) X 2 } ]

= [ + { (-2) X (3) } ] = [ - { (+3) X (2) } ]

= [ { (-2) X (+3) } ] = [ { (+3) X (-2) } ]

= [ (-2) X (+3) ] = [ (+3) X (-2) ]

<- Does (essence of commutative law) catches your eyes?

[^^^] = [ Law of Liuhui Brahmagupta ]

= [ (-2) X (+3) ] = [ (+3) X (-2) ]

= [ + { (-2) X (3) } ] = [ - { (+3) X (2) } ]

= [ + { (-2) X 3 } ] = [ - { (+3) X 2 } ]

= [ + { (-6) } ] = [ - { (+6) } ]

= [ + (-6) ] = [ - (+6) ]

= [ + (-6) ] = [ + (-6) ]

= [ (-6) ] = [ (-6) ]

(11).

[^^^] = [ Subtract (Debt, $6) ] = [ Add (Fortune, $6) ] = [ (Fortune, $6) ]

= [ - (-6) ] = [ + (+6) ]

= [ + (+6) ] = [ + (+6) ]

= [ (+6) ] = [ (+6) ]

= [ (6) ] = [ (6) ]

= [ 6 ] = [ 6 ]

= [ (Debt, $2), Subtract the thing to multiply 3 times ] = [ - { (-2) X 3 } ]

= [ - { (Debt, $2) X 3(times) } ]

= [ - { (Debt, $2) X 3 } ] = [ - { (-2) X 3 } ]

= [ - { (Debt, $6) } ] = [ - { (-6) } ]

= [ - (Debt, $6) ] = [ - (-6) ]

= [ (Debt, $3), Subtract the thing to multiply 2 times ] = [ - { (-3) X 2 } ]

= [ - { (Debt, $3) X 2(times) } ]

= [ - { (Debt, $3) X 2 } ] = [ - { (-3) X 2 } ]

= [ - { (Debt, $6) } ] = [ - { (-6) } ]

= [ - (Debt, $6) ] = [ - (-6) ]

= [ - { (Debt, $2) X 3(times) } ] = [ - { (Debt, $3) X 2(times) } ]

= [ - { (Debt, $2) X 3 } ] = [ - { (Debt, $3) X 2 } ]

= [ - { (-2) X 3 } ] = [ - { (-3) X 2 } ]

= [ - { (-2) X (3) } ] = [ - { (-3) X (2) } ]

= [ { (-2) X (-3) } ] = [ { (-3) X (-2) } ]

= [ (-2) X (-3) ] = [ (-3) X (-2) ]

<- Does (essence of commutative law) catches your eyes?

[^^^] = [ Law of Liuhui Brahmagupta ]

= [ (-2) X (-3) ] = [ (-3) X (-2) ]

= [ - { (-2) X (3) } ] = [ - { (-3) X (2) } ]

= [ - { (-2) X 3 } ] = [ - { (-3) X 2 } ]

= [ - { (-6) } ] = [ - { (-6) } ]

= [ - (-6) ] = [ - (-6) ]

= [ + (+6) ] = [ + (+6) ]

= [ (+6) ] = [ (+6) ]

= [ (6) ] = [ (6) ]

= [ 6 ] = [ 6 ]

Coupdetat.net (2009.06.07)

This church sits on the supposed site of Jesus' miracle of feeding the 5,000 (the only story, other than the crucifixion and resurrection, told in all four gospels). Mostly built in the 1980s, it sits on older churches, some parts still remaining visible.

My P and M came back from their leisure time in Menorca with an multiplication machine in the shape of a clever and flexible suited monkey named Consul.

Multiplication des pains.....

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Guide Habib Boutros explains the Basilica of the Miracle of the Loaves and Fishes in Tabgha.

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How to do double digit multiplication Different mathematical operators named addition, subtraction, multiplication and division can be performed on any two numbers.Multiplication means repetitive addition of numbers. In case the numbers are small, i.e. it is 1 digit number multiplied to a one digit number, simple addition works.

As students master the various levels in Ms. DeSports' third grade class, they color in a corresponding section of a wheel.

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The area of Tabgha is on the Sea of Galilee, and is said to be the site of the miracle of the multiplication of the loaves and fish.

The mosaics laid down remained on site from the 5th century, until being excavated in the early 20th century by German archaeologists, and were incorporated into the Church of the Multiplication.