Answer:
Volume = 16 unit^3
Step-by-step explanation:
Given:
- Solid lies between planes x = 0 and x = 4.
- The diagonals rum from curves y = sqrt(x) to y = -sqrt(x)
Find:
Determine the Volume bounded.
Solution:
- First we will find the projected area of the solid on the x = 0 plane.
A(x) = 0.5*(diagonal)^2
- Since the diagonal run from y = sqrt(x) to y = -sqrt(x). We have,
A(x) = 0.5*(sqrt(x) + sqrt(x) )^2
A(x) = 0.5*(4x) = 2x
- Using the Area we will integrate int the direction of x from 0 to 4 too get the volume of the solid:
V = integral(A(x)).dx
V = integral(2*x).dx
V = x^2
- Evaluate limits 0 < x < 4:
V= 16 - 0 = 16 unit^3
Hello There!
A hypotenuse and an acute angle define congruence:
HA
A hypotenuse and a leg define congruence:
HL
A leg and an acute angle define congruence:
LA
Two legs define congruence
LL
Hope This Helps You!
Good Luck :)
- Hannah ❤
Answer:
Step-by-step explanation:
<u>Alternate interior angles measure same as per their property:</u>
- m∠3 = m∠6
- 3x - 5 = 5x - 25
- 5x - 3x = 25 - 5
- 2x = 20
- x = 10
Answer:
Not sure if this was meant to be a multi choice question, but I'll try help anyway.
As long as you times the denominator and the numerator by the same number, many fractions can be of the same value as 16/-3.
For example, a potential answer to this could be 32/-6.
If we simplify this, we still get 16/-3.
They're different fractions, but of the same value.
Hope this helps!!
Answer:
135
Step-by-step explanation:
9 times 15
