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Simple equations with fractions.
A sheet of paper has been folded and cut. Choose the image that shows the unfolded paper sheet.
How to maintain the balance of the scales?
Recognise the nets of various geometric shapes.
Select the map showing the point marked on the landscape.
What are the correct moves to solve the Rubik's cube?
What will be the position of the marked cogwheel after performing the rotations?
Move the items situated in the specified position to the cells at the bottom.
Enter the ID of the robot parts; pay attention to the correct order.
What mass will keep the pulley system in balance?
Find the correct description of the person shown in the picture.
Drag the pictures of the people to the correct place on the timeline.
Exercises related to basic mathematical operations and relations on a 3×3 grid.
Exercises for practising basic operations using a number circle.
Perform the operations and match them with the correct answer.
Practice calculating the area of circles.
Practice calculating the area of polygons.
Count how many of each item you can see in the picture.
The right and left sides of the cards are mixed. Put them to the correct place.
Which element puts the scale in balance?
What shape is formed by the overlapping layers from above?
Two items in the image are identical; mark them.
Each algebraic expression is the sum of the two expressions directly beneath it.
Recognise the algebraic expressions represented in a tree structure.
Recognise Roman numerals and practice calculations with them.
Well-known mathematical identities and inequalities.
Find the logic of the patterns and complete them.
Arrange the pieces of pictures in the correct order.
Calculate the sum of the elements that form each set.
Follow the pattern from the starting point to the finish line.
Which square can be assembled by combining the parts?
At least how many moves are needed to achieve the shown configuration on a solved Rubik's cube?
Click on the items that occur four times.
Place the dominoes so that each shape appears only once on all sides of the square.
Match the pictures of the people with their biographical data.
Recognise musical instruments by their pictures and sounds.
Recognise the objects from different points of views.
The order of the items along the routes gives the correct solution.
Calculate how many you see of the shape and enter the number in the field.
Select the structure that completes the cube.
Select the answer that shows the correct view of the shape.
Match the cards showing fractions with equal values.
Match the sets of items with the pictures you can assemble from them.
Which set of items contains the components of the picture?
Each number is the sum of the two numbers directly beneath it.
Which position is the correct one after rotating the shape?
The place marked with a question mark is missing something that can be found in the other group.
Simplify the algebraic fractions.
Fill out the magic square with fractions.
Find out the logic of matching the pictures.
Which detail is not part of the large image?
Follow the rule to find your way out of the number labyrinth.
Calculate like Ancient Romans.
Crossword puzzle with basic algebraic operations.
Compare the number of items on the two sides.
Compare the value of the two sides.
Count the shapes and decide which side has more of them.
Compare the value of fractions. More, less or equal?
Match the direction of the pictures with the arrows.
Which one is the rear view of the image?
Assemble a square from shapes without rotating them.
Which three are the same value?
Click on the objects in the correct order.
How many sections form the shortest path between the two marked nodes?
How many small cubes are missing from the whole big cube?
Find the missing half of the pictures.
Mark where the small square of four pictures is in the big square.
Trigonometric problems and identities.
Choose which set of items the object can be assembled from.
Click on the items that occur three times.
The number of dots on the dominos should be the same on each side of the square.
Find the correct destination using the direction and the distance given on the card.
Which card shows the correct direction and distance between the two points?
Which configuration is impossible when rotating a standard Rubik's cube?
Which Rubik's cube shows the result of the determined rotations?
Which set of moves will put the marked cube to the correct place in the Rubik's cube?
Place the dominoes so that the number of dots on the dominoes is the same on all sides of the square.
Place the dominoes so that the sum of the fractions on the dominoes is the same on all sides of the square.
Place all eight items where they belong to.
There are 10 differences between the two images, find all of them.
Letter recognition exercises for young students.
Which numbers do you have to add to get the number in the centre of the flowers?
How many are heading to the right and how many to the left?
Perform the operations and colour the pictures.
Learn English words through colours.
What is the sum of the two parts of the domino?
Which small image best matches the featured image?
Connect the identical images, pay attention to the order and orientation.
Arrange the drawing phases in the correct order.
How many axes of symmetry does the picture have?
Construct the path to the destination from the elements.
Find the analogy between the pictures at the top to find the picture that matches the one in the bottom.
Select the corresponding geometric solid or net.
Each colour may appear only once in each row and column.
What would you see if you placed the three partial pictures above one another?
Match the front views with the corresponding back views.
Given the input values what is the correct output value?
Which logical expression represents the following logic circuit diagram?
Match the fruits and vegetables with their sections.
Match the pictures that are mirror images of each other.
What number should stand instead of the question mark?
Mark the pattern that fits into the empty place.
What shape was the paper before folding it?
Match the objects with the volume values.
Perform the operations using the tables.
Which structures form a cube when combined?
