90249
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: If q = 2\(^{n }\)5\(^{m}\) where n,m are non negative integers then \(\frac{\text{p}}{\text{q}}\) is a terminating decimal fraction.
Reason: \(\frac{13}{3125}\) is a terminating decimal fraction.
90251
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: n\(^{2}\) + n is divisible by 2 for every positive integer n.
Reason: If x and y are odd positive integers, from x\(^{2}\) + y\(^{2}\) is divisible by 4.
90253
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: When positive integer a is divided by 3 the value of remainder can be 0, 1 or 2.
Reason: According to Euclid’s division lemma a = bq + r where 0 ≤ r < b r is integer.
90249
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: If q = 2\(^{n }\)5\(^{m}\) where n,m are non negative integers then \(\frac{\text{p}}{\text{q}}\) is a terminating decimal fraction.
Reason: \(\frac{13}{3125}\) is a terminating decimal fraction.
90251
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: n\(^{2}\) + n is divisible by 2 for every positive integer n.
Reason: If x and y are odd positive integers, from x\(^{2}\) + y\(^{2}\) is divisible by 4.
90253
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: When positive integer a is divided by 3 the value of remainder can be 0, 1 or 2.
Reason: According to Euclid’s division lemma a = bq + r where 0 ≤ r < b r is integer.
90249
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: If q = 2\(^{n }\)5\(^{m}\) where n,m are non negative integers then \(\frac{\text{p}}{\text{q}}\) is a terminating decimal fraction.
Reason: \(\frac{13}{3125}\) is a terminating decimal fraction.
90251
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: n\(^{2}\) + n is divisible by 2 for every positive integer n.
Reason: If x and y are odd positive integers, from x\(^{2}\) + y\(^{2}\) is divisible by 4.
90253
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: When positive integer a is divided by 3 the value of remainder can be 0, 1 or 2.
Reason: According to Euclid’s division lemma a = bq + r where 0 ≤ r < b r is integer.
90249
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: If q = 2\(^{n }\)5\(^{m}\) where n,m are non negative integers then \(\frac{\text{p}}{\text{q}}\) is a terminating decimal fraction.
Reason: \(\frac{13}{3125}\) is a terminating decimal fraction.
90251
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: n\(^{2}\) + n is divisible by 2 for every positive integer n.
Reason: If x and y are odd positive integers, from x\(^{2}\) + y\(^{2}\) is divisible by 4.
90253
Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following:
Assertion: When positive integer a is divided by 3 the value of remainder can be 0, 1 or 2.
Reason: According to Euclid’s division lemma a = bq + r where 0 ≤ r < b r is integer.