Answer:
2
Step-by-step explanation:
loge(x) is ln(x)
f(x) × ln(x)
Differentiate using product law
[ln(x) × f'(x)] + [(1/x) × f(x)]
x = 1
[ln(1) × f'(1)] + [(1/1) × f(1)]
(0 × 4) + (1 × 2)
0 + 2
2
X=8 is ur answer hope this helps
To solve for the volume of a rectangular prism, you must multiply the length, height, and width, or L*W*H=volume.
Here's what we know: length= 518 feet
width= 712 feet
height= 2 feet
Solve: 518*712= 368,816
368,816*2=737,632
Volume=732,632
The volume of the rectangular prism is the product of the length, height, and width, or in this case, 732,632 cubic feet.
For this case we must use the projectile equation for this problem.
We have then:
h (t) = - 16t ^ 2 + Vt + h
Where,
V: initial speed
h: height
For the tennis ball we have:
h (t) = - 16t ^ 2 + 130t + 2
Answer:
An equation that correctly models the ball's height as a function of time is:
h (t) = - 16t ^ 2 + 130t + 2
I am guessing you mean quantity instead of quality so in a year there is 8760 hours, so just take the 33,300 and divide it by 8760.
And you should get something like 3.801 people per hour