Identify the greatest common factor of 36, z36z and 1212.

To identify the greatest common factor (GCF) of the numbers 36, z36z, and 1212, we first need to clarify the terms.

1. Understanding Each Term:

   • 36: This is a clear integer.
   • z36z: It seems to be a variable expression, but without further context, we will treat it as an integer if it can be interpreted or if the variable \( z \) takes on certain integer values.
   • 1212: This is also a clear integer.

2. Finding GCF of the Known Integers:

   • First, we determine the prime factorization of the integers.

   • For 36: \[ 36 = 6 \times 6 = 2^2 \times 3^2 \]

   • For 1212: \[ 1212 = 121 \times 10 = (11^2 \times 2 \times 5) \text{ or factorizing further }: \]

     Dividing by 2: \[ 1212 \div 2 = 606 \] Dividing by 2 again: \[ 606 \div 2 = 303 \] Dividing 303 by 3: \[ 303 \div 3 = 101 \] Thus, \[ 1212 = 2^2 \times 3^1 \times 101 \]

3. Finding the GCF:

   • To find the GCF, we take the lowest power of each prime factor present in both numbers:
     • For \(2\): Minimum of 2 in 36 and 1 in 1212 is 2.
     • For \(3\): Minimum of 2 in 36 and 1 in 1212 is 1.

   Thus, \[ \text{GCF}(36, 1212) = 2^2 \times 3^1 = 4 \times 3 = 12. \]

4. Considering z36z:

   • The factorization is dependent on \(z\). If \(z\) represents an integer, we can evaluate \(z36z\) accordingly. If \(z = 1\), \(z = 2\), etc., the GCF may change based on the actual value chosen.

In summary, without an explicit value for \(z\), the final GCF considering only the known integers (36 and 1212) is:

\[ \text{GCF} = 12. \]

For evaluating \(GCF\) with \(z36z\), more context or specification regarding \(z\) would be necessary.