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∙ 13y agoAddition does. Subtraction, just as with numbers: a - b is not equal to b - a, but you can change a - b to -b + a.
Addition does. Subtraction, just as with numbers: a - b is not equal to b - a, but you can change a - b to -b + a.
Addition does. Subtraction, just as with numbers: a - b is not equal to b - a, but you can change a - b to -b + a.
Addition does. Subtraction, just as with numbers: a - b is not equal to b - a, but you can change a - b to -b + a.
Wiki User
∙ 13y agoWiki User
∙ 13y agoAddition does. Subtraction, just as with numbers: a - b is not equal to b - a, but you can change a - b to -b + a.
Yes subtraction of vector obeys commutative law because in subtraction of vector we apply head to tail rule
Yes, complex numbers obey the commutative property of addition.
Yes. Both the commutative property of addition, and the commutative property of multiplication, works:* For integers * For rational numbers (i.e., fractions) * For any real numbers * For complex numbers
They are all numbers and obey the same rules for addition, subtraction, multiplication, division, exponentiation etc.
Yes.
Yes subtraction of vector obeys commutative law because in subtraction of vector we apply head to tail rule
Yes.
Yes, complex numbers obey the commutative property of addition.
Yes. Both the commutative property of addition, and the commutative property of multiplication, works:* For integers * For rational numbers (i.e., fractions) * For any real numbers * For complex numbers
no the answer is no because you can fine a-b and b-a individually but in general they are not equal By Habib
They are all numbers and obey the same rules for addition, subtraction, multiplication, division, exponentiation etc.
The cross product of two vectors is defined as a × b sinθn Where the direction of Cross product is given by the right hand rule of cross product. According to which stretch the forefinger of the right hand in the direction of a and the middle finger in the direction of b. Then, the vector n is coming out of the thumb will represent the direction. As direction of a × b is not same to b × a. So it does not obey commutative law.
Yes.
Yes.
The verb is merely, obey. I obey, you obey, he, she, it obeys. One may be obedient to someone, but one does not "obey to" someone.
Obey is a verb. Obey means "to do as told".Example:Soldiers should obey orders.
Obey is present tense. I/We/You/They obey He/She/It obeys