The product of 2 number can only be 0 if either the multiplication itself be 0.
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = Kᒾ
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-➠0 + 0 = 0 × 0
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-➠0 + 0 = 0 × 0➠2 (0) = 0ᒾ
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-➠0 + 0 = 0 × 0➠2 (0) = 0ᒾ➠0 = 0
[tex] \huge \circ\bold \blue { Solution} \circ[/tex]
The product of 2 number can only be 0 if either the multiplication itself be 0.
So, our sum as 0 is the additive identity of all types of numbers.
So, a number that’s added to 0 to give 0 can’t be other than 0.
In this case,
➠K + K = K × K
➠2K = Kᒾ
By replacing K by 0, we get:-
➠0 + 0 = 0 × 0
➠2 (0) = 0ᒾ
➠0 = 0
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Hope the above concept is clear !
Step-by-step explanation:
The product of 2 number can only be 0 if either the multiplication itself be 0.
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = Kᒾ
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-➠0 + 0 = 0 × 0
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-➠0 + 0 = 0 × 0➠2 (0) = 0ᒾ
The product of 2 number can only be 0 if either the multiplication itself be 0.So, our sum as 0 is the additive identity of all types of numbers.So, a number that’s added to 0 to give 0 can’t be other than 0.In this case,➠K + K = K × K➠2K = KᒾBy replacing K by 0, we get:-➠0 + 0 = 0 × 0➠2 (0) = 0ᒾ➠0 = 0