Identify which of the given plan views (nets) can be folded to make the 3D object shown (a short cylinder with a tall, thin rectangular slab attached on its circular top and extending upward).
Three objects are given — one cube and two right-angled prisms. They can be merged to form one 3D object. From the options, choose the possible object(s) formed by this merging.
Which of the options is/are simple rotations of the given figure?
Which of the four figures shown on the right exactly fit the figure shown on the left?
Count the number of cubes in the figure. No cube has been removed from parts that are not visible.
Two views of the same solid object are shown. Count the number of surfaces (planar or curved) the solid has.
Given below are eight pieces of a puzzle. Arranged correctly they form a four–digit number. What is the number formed after the correct arrangement?
Count the number of unique patterns in the given grid.
Imagine letters are extruded into three-dimensional solids (like the block letter A shown). If the word LOVE is extruded in the same way, how many surfaces would the resulting object have?
Count the total number of parallelograms in the given figure.
Shown on the left are three types of pencils A, B, C (distinguished by the thickness of the two dark side-bands). In the barcode-like bundle on the right, pencils point either up or down. Find the total number of type A pencils.
The given figure is made of letters L, T, H, I, E and F, set in different orientations. Find the total number of occurrences of capital letter T in the figure.
Shown are letters A–Z in a stylised alphabet. How many of these, if flipped along the horizontal axis, can still be read as capital letters?
Shown here are different types of leaves. Count how many types of leaves there are.
Count the number of circles in the given figure.
