Answer:
8%
Step-by-step explanation:
Data provided in the problem:
Weight of the substance measured = 0.050 g
Smallest quantity that can be measured = 0.004 g
Now,
The Maximum potential error is calculated as:
Maximum potential error =
on substituting the respective values, we get
Maximum potential error =
or
Maximum potential error = 8%
Answer:
A).4m^(+5)
B).2m^ (+7)
Step-by-step explanation:
First let me convert the expression to words for easy simplification and evaluation.
2m squared times 2m to the power 3.
= 2m² * 2m³
m to the power 4 times 2m to the power 3
= m⁴ * 2m³
So to evaluate.
We just multiply and get our answer.
For 2m² * 2m³
= (2*2)(m²*m³)
= 4(m(²+³))
= 4m^(+5)
For m⁴ * 2m³
= 2(m⁴*m³)
= 2m(⁴+³)
= 2m^ (+7)
Answer:
4th term = 29
to generate the terms, substitute n = 2, 3, 4 into the rule
noting that b(1) = - 7
b(2) = b(2 - 1) + 12 = b(1) + 12 = -7 + 12 = 5
b(3) = b(3 - 1) + 12 = b(2) + 12 = 5 + 12 = 17
b(4) = b(4 - 1) + 12 = b(3) + 12 = 17 + 12 = 29
Answer:
27 inches
Step-by-step explanation:
To find the length of the diagonal, we just need to use the cosine relation of the 48° angle.
The adjacent side to the angle is the height of the canvas, and the hypotenuse formed is the diagonal of the canvas. So, we have that:
cos(48) = height / diagonal
0.6691 = 18 / diagonal
diagonal = 18 / 0.6691 = 26.9 inches
Rounding to the nearest inch, the diagonal of the canvas measures 27 inches
Answer:
490 pounds
Step-by-step explanation:
Peppermint hard candy costs $4.40 per pound, and Cinnamon hard candy costs $5.40 per pound.
If we mix the in x : y ratio respectively then the mixture costs $5.10 per pound.
Therefore, we can write
⇒ 0.3y = 0.7x
⇒
Now, if the candy store has 210 pounds of Peppermint hard candy, then Cinnamon hard candy required for making the mix is pounds. (Answer)