<span>Approximately 25.
Of the 5 grades of sand used in the United states, medium sand has particles ranging from 0.25 mm to 0.5 mm. For convenience, I'll use 0.5mm as the diameter of a grain of sand. Human cells range from a volume of 30 cubic micrometers (human sperm cell) up to 4 million micrometers (human egg cell). For the average human cell, I'll use an osteoblast with a volume of 4000 cubic micrometers or a diameter of 2x10^-5 meters.
Now just take the diameter of a grain of sand and divide by the diameter of a human cell.
5 x 10^-4 / 2x10^-5 = 5/2 x 10^(-4 - -5) = 2.5x10^1 = 25
So the diameter of a grain of sand at 0.5 mm is approximately 25 times larger than that of a human cell at 0.02mm</span>
Answer:
The true among them are: B, C, E and F
Step-by-step explanation:
A is not true.
f(x) = x^x grows at of an order bigger than e^x
in fact f(x) = 4^x grows faster than e^x
B Is true... if p is growing more slowly than q then |x^p| < M|x^q| for all x> x0
C is true
D is not true.
f = O(h) and g = O(h)
fg = O(h^2)
E. Is true
F is true if |f(x) < M |g(x)| then |10 f(x)| < 10M |g(x)| and 10 M is a positive
Answer
x≤3/17 or x≥-10
Step-by-step explanation:
Answer:
do it yourself looser
Step-by-step explanation:
It is 3.75 for the answer
