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What 9 letter American word can you take out one letter at a time and without changing the arrangement of the letters can make up 8 new American words?
Wiki User
∙ 16y ago
startling starting staring string sting sing sin in I
Wiki User
∙ 16y ago
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Without changing the order of the letters what can the word 'saved' be changed into or what letters can be added to it?
shaved slaved, staved starved misbehaved
What 5 letter word can you remove 4 letters from without changing the pronunciation?
aitch, queue
How many different words can formaed with the letters of the word 'equation' without changing the relative order of the vowels and constants?
3
What is a characteristic of an object that can be observed without changing the object identity?
the state of its matter,melting point,boiling point,arrangement of its atoms... i think so. please send me its alternate answer.
What is the characteristic of an object that can be observed without changing the objects identity?
the state of its matter,melting point,boiling point,arrangement of its atoms... i think so. please send me its alternate answer.
What is a characteristic of an object that can be observed without changing the objects identity?
the state of its matter,melting point,boiling point,arrangement of its atoms... i think so. please send me its alternate answer.
What is the formula to work out how many times can you rearrange the letters in the word chocolate?
The answer to the question that is asked is that there is no limit other than your life span. There is no requirement from the question that the arrangements should be different.But, if you want the number of distinct arrangements, the formula is derived as follows:There are 9 letters in chocolate so that gives a preliminary answer of 9! ways.But the letters c and o appear twice. The two cs can be swapped in 2! ways, and the two os in anothr 2! way without changing the arrangement. So the final answer is9!/(2!*2!) = 362,880/(2*2) = 90,720 ways.The answer to the question that is asked is that there is no limit other than your life span. There is no requirement from the question that the arrangements should be different.But, if you want the number of distinct arrangements, the formula is derived as follows:There are 9 letters in chocolate so that gives a preliminary answer of 9! ways.But the letters c and o appear twice. The two cs can be swapped in 2! ways, and the two os in anothr 2! way without changing the arrangement. So the final answer is9!/(2!*2!) = 362,880/(2*2) = 90,720 ways.The answer to the question that is asked is that there is no limit other than your life span. There is no requirement from the question that the arrangements should be different.But, if you want the number of distinct arrangements, the formula is derived as follows:There are 9 letters in chocolate so that gives a preliminary answer of 9! ways.But the letters c and o appear twice. The two cs can be swapped in 2! ways, and the two os in anothr 2! way without changing the arrangement. So the final answer is9!/(2!*2!) = 362,880/(2*2) = 90,720 ways.The answer to the question that is asked is that there is no limit other than your life span. There is no requirement from the question that the arrangements should be different.But, if you want the number of distinct arrangements, the formula is derived as follows:There are 9 letters in chocolate so that gives a preliminary answer of 9! ways.But the letters c and o appear twice. The two cs can be swapped in 2! ways, and the two os in anothr 2! way without changing the arrangement. So the final answer is9!/(2!*2!) = 362,880/(2*2) = 90,720 ways.
From the word astounder how many independent words can be made without changing the order of the letters and using each letter only once?
Since we have to use each letter only once.. two words can be made from these letters - at , sound
Does add color to water tell about changing matter without changing its shape?
does add color to water tell about changing matter without changing its shape
What solids have a random arrangement of particles?
A glass has a random arrangement of particles. They are often called amorphous, which means without shape. Contrast with a crystal, which has a definite arrangement of particles.
Is changing direction really the same as changing speed?
No. It is possible to change direction without changing speed. However, it is not possible to change direction without changing velocity.
Without changing one substance into another?
A physical property can be observed without changing the substance into something else.
