11. LUIS Aller lype Questions (4 Marks ) 9. In the given figure, CD | AE and CY|BA. Prove that ar(ACBX) =ar(AAXY) [NCERT Exemplar] 10. Pand 0 are respectively the mil

In the figure CD||AE and CYA||BA. Prove that : ar(CBX) = ar(AXY)

In figure, CD || AE and CY || BA . Prove that ar (DeltaCBX) = ar (DeltaAXY) .

In figure, CD || AE and CY || BA . Prove that ar (DeltaCBX) = ar (DeltaAXY) .

Study the following information to answer the given questions. A, B, C and D are the corners of a rectangular field such that A is to the North of B. C is 0.2km to the East of A. The longer side of the rectangular field is 2km. E, F, G and H are the corners of an another rectangular field such that E is 1.6km to the west of G. H is 1.2km to the south of G and in the East of F. Rectangle field EFGH intersects the line joining AB and CD at KL and IJ respectively. It is also known that K is 0.9km towards the East of E and J is 0.4km towards the North of D. What will be the minimum possible distance to reach point L from point C?

Study the following information to answer the given questions. A, B, C and D are the corners of a rectangular field such that A is to the North of B. C is 0.2km to the East of A. The longer side of the rectangular field is 2km. E, F, G and H are the corners of an another rectangular field such that E is 1.6km to the west of G. H is 1.2km to the south of G and in the East of F. Rectangle field EFGH intersects the line joining AB and CD at KL and IJ respectively. It is also known that K is 0.9km towards the East of E and J is 0.4km towards the North of D. If the person “X” wants to reach the point E from Point D, then which of the following will be the correct direction to reach his destination?

A container contains three liquds as shown in the figure. The specific gravity of liquid 1 and liquid 2 are 0.8 and 1.2 respectively. A small hole having area 10^(-6) m^(2) at point P is as shown in the figure. Initially hole is closed. The cross-sectional area of container is 50 cm^(2) . assume all liquids ae ideal and neglect any type of friction between liquid and container. (Given that g=9.8 m//s^(2) and h=28 cm ) At some instant, hole is opened. the speed of water coming out from hole just after the opening of hole is

A container contains three liquds as shown in the figure. The specific gravity of liquid 1 and liquid 2 are 0.8 and 1.2 respectively. A small hole having area 10^(-6) m^(2) at point P is as shown in the figure. Initially hole is closed. The cross-sectional area of container is 50 cm^(2) . assume all liquids ae ideal and neglect any type of friction between liquid and container. (Given that g=9.8 m//s^(2) and h=28 cm ) The value of h_(2)//h_(1) is

A container contains three liquds as shown in the figure. The specific gravity of liquid 1 and liquid 2 are 0.8 and 1.2 respectively. A small hole having area 10^(-6) m^(2) at point P is as shown in the figure. Initially hole is closed. The cross-sectional area of container is 50 cm^(2) . assume all liquids ae ideal and neglect any type of friction between liquid and container. (Given that g=9.8 m//s^(2) and h=28 cm ) The value of h_(2)//h_(1) is

A container contains three liquds as shown in the figure. The specific gravity of liquid 1 and liquid 2 are 0.8 and 1.2 respectively. A small hole having area 10^(-6) m^(2) at point P is as shown in the figure. Initially hole is closed. The cross-sectional area of container is 50 cm^(2) . assume all liquids ae ideal and neglect any type of friction between liquid and container. (Given that g=9.8 m//s^(2) and h=28 cm ) At some instant, hole is opened. the speed of water coming out from hole just after the opening of hole is