❒ Moderators
❒ Brainly Stars
❒ Other brainly best Users
➢ Question : 1
Find five rational numbers between 1 and 2. ________________________________ ➢ Question : 2
Locate √3 on the number line. ________________________________ ☆ Spam Questions Repoted
☆ Don't Post Wrong Answer
☆ Don't Report On my question
- Aahana ❤️
Answers
your answer
1. Five rational numbers between 1 and 2 are 11/10, 12/10, 13/10, 14/10, and 15/10.
2.
Construct BD of 1 unit length perpendicular to OB as fig. Join OD
Construct BD of 1 unit length perpendicular to OB as fig. Join ODBy Pythagoras theorem, OD=
Construct BD of 1 unit length perpendicular to OB as fig. Join ODBy Pythagoras theorem, OD= ( 2
)
) 2
) 2 +1
) 2 +1 2
) 2 +1 2
) 2 +1 2
) 2 +1 2 =
) 2 +1 2 = 2+1
) 2 +1 2 = 2+1
) 2 +1 2 = 2+1 =
) 2 +1 2 = 2+1 = 3
) 2 +1 2 = 2+1 = 3
) 2 +1 2 = 2+1 = 3
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3 . From this we can conclude that many
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3 . From this we can conclude that many points on the number line can be represented by irrational numbers also.
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3 . From this we can conclude that many points on the number line can be represented by irrational numbers also. In the same way, we can locate
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3 . From this we can conclude that many points on the number line can be represented by irrational numbers also. In the same way, we can locate n
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3 . From this we can conclude that many points on the number line can be represented by irrational numbers also. In the same way, we can locate n
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3 . From this we can conclude that many points on the number line can be represented by irrational numbers also. In the same way, we can locate n for any positive integers n, after
) 2 +1 2 = 2+1 = 3 Using a compass, with centre O and radius OD, draw an arc which intersects the number line at the point L right side to 0. Then ′ L ′ corresponds to 3 . From this we can conclude that many points on the number line can be represented by irrational numbers also. In the same way, we can locate n for any positive integers n, after n−1
Answer:
1)Ans:-0, 1, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, -0.1, -0.2, -0.3.
2)Ans:-in the images
