What is the lower and upper bound of 9.3 in 1 s.f.?
85000
The least number that rounds to 4000 to 1 sig fig is 3500
When rounding to 1 sig fig it is the same as rounding to the place value column of that digit. In 90000 the 1 sig fig digit occupies the 10,000 place value column. Therefore the rounding will be half that, ie all numbers ± (10,000 ÷ 2) = ± 5,000 will round to that number. Note that as exactly half way rounds up, it is -5,000 ≤ and < 5,000 which will round. Thus the range that will round to 90,000 to 1 sig fig is: 90,000 - 5,000 ≤ number < 90,000 + 5,000 → 85,000 ≤ number < 95,000 Thus the upper bound is 95,000 (ie all numbers greater than 90,000 and less than 95,000 will round to 90,000 to 1 sig fig).
It is 5400.
No because technically, infinity is not a "number" it is a concept that means without limit, bound or end. so infinity+1=infinity infinity2=infinity and so on.
No, a measurable function may have a finite number of discontinuities (for the Riemann measure), or a countably infinite number of discontinuities (for the Lebesgue measure). It should also be bounded (have some upper and lower bound, or limit, in the domain that is being measured), to be measureable. At least, some unbounded functions are not measurable.No, a measurable function may have a finite number of discontinuities (for the Riemann measure), or a countably infinite number of discontinuities (for the Lebesgue measure). It should also be bounded (have some upper and lower bound, or limit, in the domain that is being measured), to be measureable. At least, some unbounded functions are not measurable.No, a measurable function may have a finite number of discontinuities (for the Riemann measure), or a countably infinite number of discontinuities (for the Lebesgue measure). It should also be bounded (have some upper and lower bound, or limit, in the domain that is being measured), to be measureable. At least, some unbounded functions are not measurable.No, a measurable function may have a finite number of discontinuities (for the Riemann measure), or a countably infinite number of discontinuities (for the Lebesgue measure). It should also be bounded (have some upper and lower bound, or limit, in the domain that is being measured), to be measureable. At least, some unbounded functions are not measurable.
The least number that rounds to 4000 to 1 sig fig is 3500
When rounding to 1 sig fig it is the same as rounding to the place value column of that digit. In 90000 the 1 sig fig digit occupies the 10,000 place value column. Therefore the rounding will be half that, ie all numbers ± (10,000 ÷ 2) = ± 5,000 will round to that number. Note that as exactly half way rounds up, it is -5,000 ≤ and < 5,000 which will round. Thus the range that will round to 90,000 to 1 sig fig is: 90,000 - 5,000 ≤ number < 90,000 + 5,000 → 85,000 ≤ number < 95,000 Thus the upper bound is 95,000 (ie all numbers greater than 90,000 and less than 95,000 will round to 90,000 to 1 sig fig).
It is 5400.
In it people agreed to be bound by the will of the majority
The phone number of the Bound Brook Memorial Library is: 732-356-0043.
Integrate between the bounds.
Lower and Upper bound of 1000 of two significant figures is 100Plus or minus 50 is 950 , 1050
A number of maps, especially when bound in book form, is an atlas.
gand me ...............
4.46 is a fixed number: it has no upper nor lower bound. To 2 dp it is 4.46
OPNAV 5580/24
Harmonicas and pan flutes are both made with a number of sections, each containing reeds, that are bound together into a single musical instrument..