The engine cylinder locations are numbered :
4 - 8
3 - 7
2 - 6
1 - 5
front of vehicle
so I assume :
D - H
C - G
B - F
A - E
6/20=54/b 54/b*54 6/20*54/1= 324/20= 16.2 b=16.2
6/20 = 54/B so B = 54*20/6 = 180
Its on the top of the engine at the right front... coils and ignition module are together. Follow the plug wires, away from the spark plugs, where they will connect into the coil pack. The ignition module is sandwiched under the coil pack. To remove either... remove the three nuts under the ignition module and the six torx screws on top of the coil pack.... voila. After market new modules (10/2010) cost $98-134 at Carquest Auto Parts. OEM Delco module cost New from B&B Auto parts $ 360 Good Luck
54 = 2 x 3³ So, if a and b are integers, a=2 and b=3
54
54 = 2 x 3 x 3 x 3 = 2 x 33. Thus if ab3 = 54 and a, b are prime, then a=2, b=3.
Trąbczyn B's population is 54.
By following BODMAS, evaluate the inner brackets first, collecting terms together as you go: B - 3(B - 4(1 - B)) = 54 → B - 3(B - 4 + 4B) = 54 → B -3(5B - 4) = 54 → B - 15B + 12 = 54 → -14B = 42 → 14B = -42 → B = -3 Check by substituting back into the original equation: B - 3(B - 4(1 - B)) → -3 - 3(-3 - 4(1 - -3)) → -3 - 3(-3 - 4(4)) → -3 - 3(-3 - 16) → -3 - 3(-19) → -3 + 57 → 54 as required.
A,b,c
54 years old.
I know that the engine cylinders are numbered : firewall 4 - 8 3 - 7 2 - 6 1 - 5 front of Ford Expedition I'm not a mechanic / technician but I assume it would be : firewall D - H C - G B - F A - E front of Ford Expedition ( with Coil On Plug ignition system )
For any two natural numbers a and b, if adivides b then greatest common factor of a and b is a.Here 3 divides 54. So, greatest common factor of 3 and 54 is 3.