steal
Whole- - - - (take away the some) wholesome whole THE ANSWER IS IN THE RIDDLE FOR CRYING OUT LOUD :'( :D your welcome!
Consider the whole number 1 and let's say we divide it by 0.1 What is meant by the above statement is how many 0.1 are there in 1 That is (1)/(0.1) and can be written as (1)/(1/10) and asks how many 1/10th are there in 1. We see 1 is a whole number divided by a fraction which will always yield a larger quotient than the original number.
2 only 0.099 away larger 0.901 away from 3
3.07 is 0.93 away from 4, but it's only 0.07 away from 3.So the nearest whole number is 3.
The two whole numbers on either side of 57.3 are 57 and 58. The first of these is 57.3 - 57 = 0.3 away while the second is 58 - 57.3 = 0.7 away. So cleary the first, 57 is the nearest whole number.
10 as only 0.17 away 9 is a larger 0.83 away
The particles will just move away from each other, to fill the larger container.
The particles will just move away from each other, to fill the larger container.
um weird question but... the closer u are to the wall the larger but more blurrier it will me. Far away will be small but clearer.
Due to difference in their respective surface areas and degree of compactment.
I rounds down to 4 as 4 is 0.4975 away whereas 5 is 0.5025 away which is larger, so 4 is answer
if large dogs seem to be threatening your small dog, it isnt your dog's fault for running away. if you see a larger dog running towards your dog, just pick him/her up... theres not really much else to do if your not the large dog's owner
When you think about it a larger rock has more surface area to be worn away think about it like if you have a large sweet or a small sweet,which will be gone faster if you suck/chew it,the small sweet because there is less of it
Removable means that a portion of a whole object is designed to be separated from the complete object. An example is a Battery Cover on a TV remote control. The cover is "removable" so new batteries can be installed.
Small rocks have a larger surface-to-volume ratio , and are therefore more quickly weathered compared to a large rock with a lower surface-to-volume ratio.
They are not. Stars are actually enormous, far larger than Earth. They appear small only because they are unimaginable far away.
Small rocks have a larger surface-to-volume ratio , and are therefore more quickly weathered compared to a large rock with a lower surface-to-volume ratio.