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MCQOPTIONS
This section includes 1770 Mcqs, each offering curated multiple-choice questions to sharpen your 6th Class knowledge and support exam preparation. Choose a topic below to get started.
| 601. |
Pranav runs around a rectangular park whose length is 6 times its breadth. If Pranav completes 12 rounds of a park and so cover a distance of 3528 metres, then find the breadth of the park. |
| A. | 18 m |
| B. | 22 m |
| C. | 27 rn |
| D. | 21 m |
| E. | None of these |
| Answer» E. None of these | |
| 602. |
A figure is formed by putting two squares one on the other as shown in the figure. If the length of each side of the two squares is 8 cm, then the perimeter of the figure formed is ________. |
| A. | 56 cm |
| B. | 64 cm |
| C. | 32 cm |
| D. | 48 cm |
| Answer» E. | |
| 603. |
A rectangular metal plate is 12 dm 65 cm long and 11 dm 28 cm wide. Find the perimeter of this plate. |
| A. | 323 cm |
| B. | 623 cm |
| C. | 646 cm |
| D. | 446 cm |
| E. | None of these |
| Answer» D. 446 cm | |
| 604. |
The area of a square is numerically equal to the perimeter of the square, then the side of square is _________. |
| A. | 2 units |
| B. | 3 units |
| C. | 4 units |
| D. | 5 units |
| Answer» D. 5 units | |
| 605. |
How many sq. cm make a sq. m? |
| A. | 100 |
| B. | 1000 |
| C. | 10000 |
| D. | 10 |
| Answer» D. 10 | |
| 606. |
An equilateral triangle is formed on a side of the square, whose one side is 8 cm. Find the perimeter of the shape so formed. |
| A. | 32 cm |
| B. | 40 cm |
| C. | 48 cm |
| D. | 56 cm |
| E. | None of these |
| Answer» C. 48 cm | |
| 607. |
Find the missing length in the given figure. |
| A. | 6 cm |
| B. | 4 cm |
| C. | 2 cm |
| D. | 5 cm |
| Answer» B. 4 cm | |
| 608. |
The length and breadth of a rectangular plot are 900 m and 700 m respectively. If three rounds offence is fixed around the field at the cost of Rs. 8 per metre, what is the total amount spent? |
| A. | Rs. 768 |
| B. | Rs. 7680 |
| C. | Rs. 76,800 |
| D. | Rs. 768,000 |
| Answer» D. Rs. 768,000 | |
| 609. |
If side of a square is doubled, then the new perimeter is _______ times the original perimeter. |
| A. | 2 |
| B. | \[\frac{1}{4}\] |
| C. | 9 |
| D. | 4 |
| Answer» B. \[\frac{1}{4}\] | |
| 610. |
80 students of the same height stand with both hands stretched all along the sides of a rectangular garden, each student covering a length of 1.75 m. What is the perimeter of the garden? |
| A. | 1400m |
| B. | 140m |
| C. | 14m |
| D. | 1400km |
| Answer» C. 14m | |
| 611. |
The side of a square is 19 cm. How many times will the new perimeter become if the side of the square is tripled? |
| A. | 2 times |
| B. | 3 times |
| C. | 4 times |
| D. | 5 times |
| E. | None of these |
| Answer» C. 4 times | |
| 612. |
What happens to the perimeter of a regular pentagon if its length is doubled? |
| A. | Doubled the perimeter |
| B. | Tripled the perimeter |
| C. | No change |
| D. | 5 times the perimeter |
| E. | None of these |
| Answer» B. Tripled the perimeter | |
| 613. |
The length and breadth of a rectangle are 3.2 m and 150 cm. What is its area? |
| A. | 48 sq cm |
| B. | 4.8 cm |
| C. | 4.8 sq m |
| D. | 48 cm |
| Answer» D. 48 cm | |
| 614. |
Three rectangles, each of same dimensions are joined as shown in the figure given below. Find the perimeter of the rectangle if the dimensions of each rectangle are 12 cm and 9 cm. |
| A. | 48 cm |
| B. | 90 cm |
| C. | 60 cm |
| D. | 72 cm |
| E. | None of these |
| Answer» C. 60 cm | |
| 615. |
If the area of a rectangle is equal to the area of a square and length of the rectangle is equal to the perimeter of the square, then the breadth of rectangle is ________ |
| A. | side \[\div \] 2 |
| B. | \[{{\text{(side)}}^{\text{2}}}\div 2\] |
| C. | \[\text{side}\div \text{4}\] |
| D. | \[\text{side}\div 3\] |
| Answer» D. \[\text{side}\div 3\] | |
| 616. |
What is the perimeter of a rectangle of length \[l\] and breadth\[b\]? |
| A. | \[2l+b\]units |
| B. | \[l\text{ }\times \text{ }b\text{ }units\] |
| C. | \[2(l+b)\]units |
| D. | \[2(l-b)\]units |
| Answer» D. \[2(l-b)\]units | |
| 617. |
If the area of a circle is\[154\,\,{{m}^{2}}\]. Find its diameter. |
| A. | 14 m |
| B. | 220 m |
| C. | 22 m |
| D. | 104 m |
| Answer» B. 220 m | |
| 618. |
If ABCD is a parallelogram, what is the ratio of areas of parallelogram \[\Delta BCD\] and\[\Delta ABC\]? |
| A. | \[1:2\] |
| B. | \[2:1\] |
| C. | \[3:2\] |
| D. | \[2:3\] |
| Answer» C. \[3:2\] | |
| 619. |
Diameter of a wheel of a train is\[154\,\,m\]. How much distance will it cover in 1000 revolutions? |
| A. | 2.84 km |
| B. | 5.24 km |
| C. | 6.16 km |
| D. | 4.84 km |
| Answer» E. | |
| 620. |
How many tiles \[40\text{ }cm\times 40\text{ }cm\] each will be required to pave a footpath 1 m wide carried round the outside of a plot\[1800\,\,cm\times 28\,\,m\]? |
| A. | 600 |
| B. | 5,2000 |
| C. | 9,900 |
| D. | 5,250 |
| Answer» B. 5,2000 | |
| 621. |
In the figure below PQRS is a parallelogram. Side \[QR=10\,\,cm\] and a perpendicular \[AB=10\,\,cm\] as shown above. Find area of parallelogram |
| A. | 100 sq. cm. |
| B. | 50 sq. cm. |
| C. | 75 sq. cm. |
| D. | 25 sq. cm. |
| Answer» B. 50 sq. cm. | |
| 622. |
If ABCD is a parallelogram, what is the ratio of areas of parallelogram ABCD and\[\Delta ABC\]? |
| A. | \[1:2\] |
| B. | \[2:1\] |
| C. | \[3:2\] |
| D. | \[2:3\] |
| Answer» C. \[3:2\] | |
| 623. |
Diameter of a wheel of a train is 154 m. How much distance will it cover in 1000 revolutions? |
| A. | \[2.84\,\,km\] |
| B. | \[5.24\,\,km\] |
| C. | \[6.16\,\,km\] |
| D. | \[4.84\,\,km\] |
| Answer» E. | |
| 624. |
The length of a rectangular field is increased by 60% and its breadth is decreased by 40% to form a new rectangular field. Find the percentage change in the area of the field. |
| A. | \[20%\]measure |
| B. | \[4%\]decrease |
| C. | \[20%\]decrease |
| D. | \[4%\]increase |
| Answer» C. \[20%\]decrease | |
| 625. |
The length and the breadth of, IIT Playground are 490 m and 250 m respectively. What is the cost of the land at Rs.500 per square metre? |
| A. | \[\text{Rs}\text{.10}\,\,\text{lakhs}\] |
| B. | \[\text{Rs}\text{.}\,\,\text{50}\,\,\text{crores}\] |
| C. | \[\text{Rs}\text{.}\,\,\text{5}\,\,\text{crores}\] |
| D. | \[\text{Rs}\text{.}\,\,\text{10}\,\,\text{lakhs}\] |
| Answer» D. \[\text{Rs}\text{.}\,\,\text{10}\,\,\text{lakhs}\] | |
| 626. |
The length of a rectangular plot of land is twice its breadth. If the perimeter of the plot be 300 m, find its area. |
| A. | \[5000\,\,{{m}^{2}}\] |
| B. | \[4000\,\,{{m}^{2}}\] |
| C. | \[3000\,\,{{m}^{2}}\] |
| D. | \[2000\,\,{{m}^{2}}\] |
| Answer» B. \[4000\,\,{{m}^{2}}\] | |
| 627. |
How many tiles \[40\,\,cm\times 40\,\,cm\] each will be required to pave a footpath 1 m wide carried round the outside of a plot\[1800\,\,cm\times 28\,\,m\]? |
| A. | 600 |
| B. | 5,2000 |
| C. | 9,900 |
| D. | 5,250 |
| Answer» C. 9,900 | |
| 628. |
A wire bent in the form of a circle of radius 42 cm is again bent in the form of a square. What is the ratio of the regions enclosed by the circle and the square? |
| A. | \[11:12\] |
| B. | \[21:33\] |
| C. | \[22:33\] |
| D. | \[14:11\] |
| Answer» E. | |
| 629. |
If a boy runs once around a football field of length and width equal to 30 and 20 metre respectively how many metre has he run? |
| A. | 50 m |
| B. | 100 m |
| C. | 600 m |
| D. | 80 m |
| Answer» C. 600 m | |
| 630. |
Find the side length of a square of area\[256\,\,c{{m}^{2}}\]. |
| A. | 16 cm |
| B. | 15 cm |
| C. | 20 cm |
| D. | 14 cm |
| Answer» B. 15 cm | |
| 631. |
Direction for question: Read the passage below and solve the questions based on it. A 20 m long piece of wire is cut into two pieces, one of which is bent into a circle and the other into the square enclosing it. The ratio of the radius of the circle to the perimeter of the square is: |
| A. | \[8:1\] |
| B. | \[1:8\] |
| C. | \[4:1\] |
| D. | \[1:4\] |
| Answer» C. \[4:1\] | |
| 632. |
Square ABCD has side length 20 cm. point E is on \[\overline{BC},\]and the area of \[\Delta ABE\] is\[80\,\,c{{m}^{2}}\]. What is BE? |
| A. | 10 cm |
| B. | 12 cm |
| C. | 8 cm |
| D. | 15 cm |
| Answer» D. 15 cm | |
| 633. |
Rectangle ACEG below is divided into 4 parts, BCDX is a square. What is the area of shaded part? |
| A. | \[100\,\,c{{m}^{2}}\] |
| B. | \[128\,\,c{{m}^{2}}\] |
| C. | \[125\,\,c{{m}^{2}}\] |
| D. | \[126\,\,c{{m}^{2}}\] |
| Answer» C. \[125\,\,c{{m}^{2}}\] | |
| 634. |
Find the area of the shaded region in the given figure of square ABCD. |
| A. | \[100\,\,c{{m}^{2}}\] |
| B. | \[50\,\,c{{m}^{2}}\] |
| C. | \[60\,\,c{{m}^{2}}\] |
| D. | \[120\,\,c{{m}^{2}}\] |
| Answer» C. \[60\,\,c{{m}^{2}}\] | |
| 635. |
'What is the Area of triangle. |
| A. | \[\frac{1}{2}\times \] base \[\times \] height |
| B. | base \[\times \] height |
| C. | length \[\times \] breadth |
| D. | \[{{\text{(Diagonal)}}^{\text{2}}}\] |
| Answer» B. base \[\times \] height | |
| 636. |
In the adjoining figure there are four squares (1) with side 11 cm, (2) With side 9 en (3) with side 7 cm and (4) with side 5 cm. (The area of the total dotted region) - (area of the lined region) is equal to (in\[c{{m}^{2}}\]) |
| A. | 56 |
| B. | 64 |
| C. | 78 |
| D. | 89 |
| Answer» C. 78 | |
| 637. |
In the adjoining figure\[AB=CD=\]\[2BC=2BP=2CQ\]. In the middle, a circle with radius 1 cm is drawn. In the rest figure all are the semicircular arcs. What is the perimeter of the whole figures? |
| A. | \[4\pi \] |
| B. | \[8\pi \] |
| C. | \[10\pi \] |
| D. | None of these. |
| Answer» D. None of these. | |
| 638. |
In the given figure\[AB=BC=CD=4\,\,cm.\]Whereas the unshaded portion in the upper semicircles is a semicircle with radius BC and center at C. Find the ratio of the area of the shaded region to that the unshaded region. |
| A. | \[4:13\] |
| B. | \[2:5\] |
| C. | \[6:13\] |
| D. | \[9:13\] |
| Answer» C. \[6:13\] | |
| 639. |
In the given figure, O is the center of the circle and AB is the diameter of the circle of length 14 cm. Find the area of shaded portion. |
| A. | \[38.5\,\,c{{m}^{2}}\] |
| B. | \[9.625\,\,c{{m}^{2}}\] |
| C. | \[19.25\,\,c{{m}^{2}}\] |
| D. | None of these |
| Answer» D. None of these | |
| 640. |
A wheel has diameter 84 cm. Find how many complete revolutions must it take to cover 792 m. |
| A. | 200 |
| B. | 300 |
| C. | 400 |
| D. | 800 |
| Answer» C. 400 | |
| 641. |
Direction for question: A ten sided figure A B C D E F G H I J is GIVEN below. The dimensions are given by \[EF=FG=GH=1\,\,cm,\] \[AB=AJ=CD=BC=3\,\,cms.\] Angle between any two sides is a right angle. Answer the question that follow the figure. Area (in sq. cms) of the above figure is |
| A. | 18 sq cms |
| B. | 20 sq. cms |
| C. | 24 sq. cms |
| D. | 27 sq. cms. |
| Answer» E. | |
| 642. |
Direction for question: A ten sided figure A B C D E F G H I J is GIVEN below. The dimensions are given by \[EF=FG=GH=1\,\,cm,\] \[AB=AJ=CD=BC=3\,\,cms.\] Angle between any two sides is a right angle. Answer the question that follow the figure. Perimeter (in cms) of the above ten sided figure is |
| A. | 20 cms |
| B. | 24 cms |
| C. | 28 cms |
| D. | None of these. |
| Answer» D. None of these. | |
| 643. |
Perimeter of given figure |
| A. | \[12\,\,a\,\,cm\] |
| B. | \[\text{6}\,\,a\,\,cm\] |
| C. | \[\text{15}\,\,a\,\,cm\] |
| D. | \[\text{8}\,\,a\,\,cm\] |
| Answer» B. \[\text{6}\,\,a\,\,cm\] | |
| 644. |
A wire is looped in the form of a circle of radius 28 cm. It is re-bent into a square form. Determine the length of the side of the square. |
| A. | 44 cm |
| B. | 45 cm |
| C. | 47 cm |
| D. | 48 cm |
| Answer» B. 45 cm | |
| 645. |
Find the area of the shaded portion. All corners are right-angled. |
| A. | \[137.8\,\,{{m}^{2}}\] |
| B. | \[136.5\,\,{{m}^{2}}\] |
| C. | \[135.67\,\,{{m}^{2}}\] |
| D. | \[148.4\,\,{{m}^{2}}\] |
| Answer» B. \[136.5\,\,{{m}^{2}}\] | |
| 646. |
A rectangular lawn is 30 m by 20 m. It has two roads each 2 m wide running in the middle of it, one parallel to the length and the other parallel to the breadth. Find the Area of the roads. |
| A. | \[98\,\,c{{m}^{2}}\] |
| B. | \[\text{96}\,\,c{{m}^{2}}\] |
| C. | \[76\,\,m{{m}^{2}}\] |
| D. | \[\text{95}\,\,{{m}^{2}}\] |
| Answer» C. \[76\,\,m{{m}^{2}}\] | |
| 647. |
In the given figure (1), (2), (3) and (4) are squares. The perimeter of the square (1) and (2) are respectively 20 and 24 units. The area of the entire figure. |
| A. | 471 sq. unit |
| B. | 747 sq. unit |
| C. | 417 sq. unit |
| D. | 472 sq. unit |
| Answer» B. 747 sq. unit | |
| 648. |
The maximum number of points of intersecting of a circle and a triangle is m. The maximum number of points of intersection of two triangle is n. Then the value of \[(m+n)\] is _________. |
| A. | 12 |
| B. | 13 |
| C. | 14 |
| D. | 10 |
| Answer» B. 13 | |
| 649. |
In a square park of side 120m, there is a swimming pool \[25\,\,m\times 20\,\,m\]. The rest is picnic ground. What is the area of picnic ground? |
| A. | \[380\,\,{{m}^{2}}\] |
| B. | \[14400\,\,{{m}^{2}}\] |
| C. | \[14900\,\,{{m}^{2}}\] |
| D. | \[13900\,\,{{m}^{2}}\] |
| Answer» E. | |
| 650. |
From a rectangular metal sheet of side 30 cm and 40 cm, a circular sheet as big as possible, is cut off. Find the Area of the remaining sheet. |
| A. | \[492.86\,\,c{{m}^{2}}\] |
| B. | \[429.68\,\,c{{m}^{2}}\] |
| C. | \[892.86\,\,c{{m}^{2}}\] |
| D. | \[426.45\,\,c{{m}^{2}}\] |
| Answer» B. \[429.68\,\,c{{m}^{2}}\] | |