Answer:
Step-by-step explanation:
Given
Shape: Cylinder
Required
Simplify the volume
The volume is calculated as:
Substitute values for Base Area and Height
Expand the bracket
Open brackets
Answer:
PO = 20
Step-by-step explanation:
They are equidistant from the centre
PG = GO
x-4=1/2x+3
Multiplying both sides by 2
2(x-4)=x+6
2x-8=x+6
2x-x = 6+8
x = 14
Now
PO = 14-4+7+3
PO = 10+10
PO = 20
A = P(1+RT)
A (Future) = 2000(2) = 4000
P (Principal) = 2000
R (Rate) = 8% =.08
T (Time) = Unknown
Create the equation:
4000 = 2000(1+.08t)
Distribute the 2000:
4000 = 2000 + 2000(.08t)
Multiply the 2000(.08t):
4000 = 2000 + 160t
Subtract the 2000 from both sides:
2000 = 160t
Divide by 160:
12.5
Answer:
It will take 12.5 years (12 years and 6 months) to double the 2000 to double.
Answer: Let c represents the time spends in producing a cockpit and p represents the time spends in producing a propulsion system. Thus, According to the question, Machine A ran for 26 hours and produced 4 cockpits and 6 propulsion systems.⇒ 4 c + 6 p = 26And, Machine B ran for 56 hours and produced 8 cockpits and 12 propulsion systems,⇒ 8 c + 12 p = 56Hence, the system of equations that will be used to find a unique amount of time that it takes each machine to produce a cockpit and to produce a propulsion system is,4 c + 6 p = 26, 8 c + 12 p = 56But both lines are parallel,Hence there is no solution of this system,Therefore, we can not solve for a unique amount of time that it takes each machine to produce a cockpit and to produce a propulsion system.
X=-14 because I did it before