Answer:
38.62
Step-by-step explanation:
You can figure this out by converting these to a positive number, then subtracting the lower number from the higher number.
Answer:
10 losses
Step-by-step explanation:
Here, we want to get the greatest possible number of games the team lost
Let the number of games won be x
Number drawn be y
Number lost be z
Mathematically;
x + y + z = 38
Let’s now work with the points
3(x) + 1(y) + z(0) = 80
3x + y = 80
So we have two equations here;
x + y + z = 80
3x + y = 80
The greatest possible number of games lost will minimize both the number of games won and the number of games drawn
We can have the following possible combinations of draws and wins;
26-2
25-5
24-8
23-11
22-14
21-17
21-17 is the highest possible to give a loss of zero
Subtracting each sum from 38, we have the following loses:
10, 8, 6, 4, 2 and 0
This shows the greatest possible number of games lost is 10
Answer:
option (D) 625 bp
Step-by-step explanation:
Data provided in the question :
Number of different bases, B = 5
Number of base recognition sequence, n = 4
Frequency of all 5 nucleotides are same
Now,
The RNA will be deduced using the formula as:
⇒ Bⁿ
on substituting the respective values, we get
⇒ 5⁴
or
⇒ 625 bp
Hence, the correct answer is option (D) 625 bp
Answer:
9/4
Step-by-step explanation:
Answer:
a b and d
Step-by-step explanation: i'm not sure i just wanted to answer for 20 points. sry if i get it wrong
