Q: One of the numbers is not prime and the second number is the number that needs to be tested for primality.  "Prime1" = 35 Prime2 = 97 They can't equal each other.  Data1 = 1 Data2 = 2 Calculate MMI  MMI1 = Prime2 ^ -1 Mod Prime1 MMI2 = Prime1 ^ -1 Mod Prime2   For Prime Numbers only (it will give a number for non-prime numbers but it won't be its MMI):  MMI1 = (Prime2 ^ (Prime1-2)) % Prime1 MMI2 = (Prime1 ^ (Prime2-2)) % Prime2   e.g  MMI1 = (97 ^ 33) % 35 MMI2 = (35 ^ 95) % 97 For MMI1  F(1) = Prime2 % Prime1 = 97 % 35 = 27 F(2) = F(1) * F(1) % Prime1 = 27 * 27 % 35 = 29 F(4) =  F(2) * F(2) % Prime1 = 29 * 29 % 35 = 1 F(8) = F(4) * F(4) % Prime1 = 1 * 1 % 35 = 1 F(16) =F(8) * F(8) % Prime1 = 1 * 1 % 35 = 1 F(32) =F(16) * F(16) % Prime1 = 1 * 1 % 35 = 1   Calculate the binary of Prime1 - 2  35 -2 = 33 (10001) base 2 MMI1 = F(33) = F(32) * F(1) mod 35 MMI1 = F(33) = 1 * 27 Mod 35 MMI1 = 27   For MMI2  F(1) = Prime1 % Prime2 = 35 % 97 = 35 F(2) = F(1) * F(1) % Prime2 = 35 * 35 mod 97 = 61 F(4) = F(2) * F(2) % Prime2 = 61 * 61 mod 97 = 35 F(8)  = F(4) * F(4) % Prime2 = 35 * 35 mod 97 = 61 F(16) = F(8) * F(8) % Prime2 = 61 * 61 mod 97 = 35 F(32)  = F(16) * F(16) % Prime2 = 35 * 35 mod 97 = 61 F(64)  = F(32) * F(32) % Prime2 = 61 * 61 mod 97 = 35 F(128) = F(64) * F(64) % Prime2 = 35 * 35 mod 97 = 61   Calculate the binary of Prime2 - 2  97 - 2 = 95 = (1011111) base 2 MMI2 = (((((F(64) * F(16) % 97) * F(8) % 97) * F(4) % 97) * F(2) % 97) * F(1) % 97) MMI2 = (((((35 * 35) %97) * 61) % 97) * 35 % 97) * 61 % 97) * 35 % 97) MMI2 = 61 Answer = (1 * 97 * 27 + 2 * 35 * 61) % (97 * 35) Answer = (2619 + 4270) % 3395 Answer = 99 Calculate (Answer - Data1) % Prime1 99 -1 % 35 = 28 Since 28 is greater than 0, 35 is not prime Calculate (Answer - Data2) % Prime2 99 - 2 % 97 = 0 Since 0 equals 0, 97 is potentially prime If step 7 is 0:  Use a different "prime1" where prime1 is a non-prime Use a different prime 1 where prime 1 is an actual prime.  In this case, steps 6 and 7 should equal 0. Use different data points for data1 and data2.   If step 7 is 0 every time, there is an extremely high probability that prime2 is prime. Steps 1 though 7 are known to fail in certain cases when the first number is a non-prime number and the second prime is a factor of the non-prime number "prime1".  It works in all scenarios where both numbers are prime. The reason why steps 1 though 7 are repeated is because there are a few scenarios where, even if prime1 is not prime and prime2 is not prime, step 7 still works out to be zero, for one or both the numbers.  These circumstances are rare.  By changing prime1 to a different non-prime number, if prime2 is not prime, prime2 will rapidly not equal zero in step 7.  Except for the instance where "prime1" is a factor of prime2, prime numbers will always equal zero in step 7.
A: Choose two numbers. Choose two datapoints that are greater than zero and less than prime1 and prime2 respectfully. Calculate MMI (Mathematical Multiplicative Inverse) for Prime1 and Prime2  Create a binary table for each MMI up to Log2 of the Modulus  Calculate (Data1 * Prime2 * MMI1 + Data2 * Prime1 * MMI2) % (Prime1 * Prime2)  Verify that "Prime1" is not Prime  Check if Prime2 is Prime  Repeat steps 1 through 7 at least two more times.

Article: Tap the Firefox app icon, which resembles an orange fox wrapped around a blue globe. It's in the top-right corner of the screen. A drop-down menu will appear. This is in the drop-down menu. The settings page will open. Doing so opens the "Clear private data" menu. It's at the top of the page. A pop-up window will open. This is near the middle of the pop-up window. If the "Cookies & active logins" box is already checked, skip this step. It's at the bottom of the pop-up window. Doing so immediately deletes your Android's Firefox browser cookies.
Question: What is a summary of what this article is about?
Open Firefox. Tap ⋮. Tap Settings. Tap Clear private data. Tap Clear now. Check the "Cookies & active logins" box. Tap CLEAR DATA.

Q: Jicama is a vegetable, not a fruit. This round, fleshy vegetable can grow to be quite large, and its skin has a bark-like texture.  The jicama’s taste has been described as similar to an apple. Sometimes called a Mexican turnip, jicama is a starchy, slightly sweet root vegetable popular in Mexico. It has the texture of a firm pear or raw potato. Jícama is a species in the genus Pachyrhizus in the bean family. Plants in this genus are referred to as yam bean, although that term can be another name for the jicama root itself. It grows in Central America, South Asia, and the Caribbean. There are many reasons to eat jicama. For one, it has very few calories, only 35 per 100g. Jicama also is good for lowering cholesterol and has very low sodium.  It is a great source of dietary fiber. It is considered a good snack for people with diabetes, or people who are on diets. However, you should also know that jicama contains an organic toxin called rotenone that has been linked to Parkinson’s disease in some studies. The toxin is mostly found in the leaf tops, stems, and seed pods, so don't eat those. The peeled roots are considered safe for human consumption. Jicama is rich in vitamin C. Jicama also contains important minerals like magnesium, copper, iron, and manganese.
A:
Get the facts on jicama. Know the health benefits of jicama.