| Bongard Problem # |
Left-side Rule |
Right-side Rule |
| BP#1 |
Empty picture |
Not empty picture |
|
BP#2 |
Large figures |
Small figures |
|
BP#3 |
Outline figures |
Solid figures |
|
BP#4 |
Convex figures |
Nonconvex figures |
|
BP#5 |
Polygons |
Curvilinear figures |
|
BP#6 |
Triangles |
Quadrangles |
|
BP#7 |
Figures elongated vertically |
Figures elongated horizontally |
|
BP#8 |
Figures on the right side |
Figures on the left side |
|
BP#9 |
Smooth contour figures |
Twisting contour figures |
|
BP#10 |
Triangles |
Quadrangles |
|
BP#11 |
Elongated figures |
Compact figures |
|
BP#12 |
Convex hull of figure elongated |
Convex hull of figure compact |
|
BP#13 |
Vertical rectangles or horizontal ellipses |
Vertical ellipses or horizontal rectangles |
|
BP#14 |
Large total line length |
Small total line length |
|
BP#15 |
Closed lines |
Open lines |
|
BP#16 |
Spiral curls counterclockwise |
Spiral curls clockwise |
|
BP#17 |
An acute angle directed inward |
No angle directed inward |
|
BP#18 |
A neck |
No neck |
|
BP#19 |
Neck horizontal |
Neck vertical |
|
BP#20 |
Points located on one side of the neck |
Points located on both sides of the neck |
|
BP#21 |
Small figure present |
No small figure present |
|
BP#22 |
Areas of figures approximately equal |
Areas of figures differ greatly |
|
BP#23 |
One figure |
Two figures |
|
BP#24 |
A circle |
No circle |
|
BP#25 |
Black figure is a triangle |
Black figure is a circle |
|
BP#26 |
Solid black triangle |
No solid black triangle |
|
BP#27 |
More solid black figures |
More outline figures |
|
BP#28 |
More solid black circles |
More outline circles |
|
BP#29 |
There are more small circles inside the figure
outline than outside |
There are fewer small circles inside the figure
outline than outside |
|
BP#30 |
A line with a self-crossing |
A line without a self-crossing |
|
BP#31 |
One line |
Two lines |
|
BP#32 |
A sharp projection |
No sharp projection |
|
BP#33 |
Acute angle |
No acute angle |
|
BP#34 |
A large hole |
A small hole |
|
BP#35 |
The axis of the hole is parallel to the figure axis |
The axis of the hole is perpendicular to the figure
axis |
|
BP#36 |
Triangle above circle |
Circle above triangle |
|
BP#37 |
Triangle above circle |
Circle above triangle |
|
BP#38 |
Triangle larger than circle |
Triangle smaller than circle |
|
BP#39 |
Segments almost parallel to each other |
Large angles between segments |
|
BP#40 |
Three points on a straight line |
No three points on a straight line |
|
BP#41 |
Outline circles on one straight line |
Outline circles not on one straight line |
|
BP#42 |
Points inside the figure outline are on a straight
line |
Points inside the figure outline are not on a
straight line |
|
BP#43 |
The vibration amplitude increases from left to right |
The vibration amplitude decreases from left to right |
|
BP#44 |
Small circles on different arcs |
Small circles on one arc |
|
BP#45 |
Outline figure on top of solid black figure |
Black figure on top of outline figure |
|
BP#46 |
Triangle on top of the circle |
Circle on top of the triangle |
|
BP#47 |
Triangle inside of the circle |
Circle inside of the triangle |
|
BP#48 |
Solid dark figures above the outline figures |
Outline figures above the solid dark figures |
|
BP#49 |
Points inside the figure outline are grouped more
densely than outside the contour |
Points outside the figure contour are grouped more
densely than inside the contour |
|
BP#50 |
Axes of symmetry |
No axes of symmetry |
|
BP#51 |
Two circles close to each other |
No two circles close to each other |
|
BP#52 |
Arrows pointing in different directions |
Arrows pointing in the same direction |
|
BP#53 |
Inside figure has fewer angles than outside figure |
Inside figure has more angles than outside figure |
|
BP#54 |
A cross, circle, and triangle arranged
counterclockwise |
A cross, circle, and triangle arranged clockwise |
|
BP#55 |
A circle is at the left of the cavity if you look
from inside the figure |
A circle is at the right of the cavity if you look
from inside the figure |
|
BP#56 |
All figures of the same color |
Figures of different colors |
|
BP#57 |
Identical figures |
Figures not identical |
|
BP#58 |
Solid dark quadrangles are identical |
Solid dark quadrangles are different |
|
BP#59 |
Figures are similar |
Figures are not similar |
|
BP#60 |
Some similar figures |
No similar figures |
|
BP#61 |
A line separates the crosses in half |
A line does not separate the crosses in half |
|
BP#62 |
Ends of the curve are far apart |
Ends of the curve are close together |
|
BP#63 |
Shading thicker on the right side |
Shading thicker on the left side |
|
BP#64 |
A cross is located on the extension of the ellipse
axis |
A circle is located on the extension of the ellipse
axis |
|
BP#65 |
A set of triangles elongated horizontally |
A set of triangles elongated vertically |
|
BP#66 |
Unconnected circles on a horizontal line |
Unconnected circles on a vertical line |
|
BP#67 |
The right branch begins at a higher point than the
left branch |
The right branch begins at a lower point than the
left branch |
|
BP#68 |
The end of the right branch is higher than that of
the left branch |
The end of the right branch is lower than that of the
left branch |
|
BP#69 |
Large black dot on the main branch |
Large black dot on a side branch |
|
BP#70 |
There are no side branches of the second order |
There are side branches of the second order |
|
BP#71 |
There are inside figures of the second order |
There are no inside figures of the second order |
|
BP#72 |
Ends of the curve are parallel |
Ends of the curve are perpendicular |
|
BP#73 |
The long axes of the ellipse and rectangle are
perpendicular |
The long axes of the ellipse and rectangle are
parallel |
|
BP#74 |
A tail grows from the obtuse end |
A tail grows from the acute end |
|
BP#75 |
Triangle located at the concave side of an arc |
Triangle located at the convex side of an arc |
|
BP#76 |
Long sides concave |
Long sides convex |
|
BP#77 |
Angle divided in half |
Angle not divided in half |
|
BP#78 |
Extensions of segments cross at one point |
Extensions of segments do not cross at one point |
|
BP#79 |
A dark circle is closer to the outline circle than to
the triangle |
A dark circle is closer to the triangle than to the
outline circle |
|
BP#80 |
Points located at the same distances from a cross |
Points located at different distances from a cross |
|
BP#81 |
Dark figures can be divided from outline figures by a
straight line
alternatively:
Convex hulls of filled and outlined figures overlap |
Dark figures are impossible to separate
alternatively:
Convex hulls of filled and outlined figures do not overlap |
|
BP#82 |
The convex hull of the crosses forms an equilateral
triangle |
The convex hull of the crosses does not form an
equilateral triangle |
|
BP#83 |
A circle is inside of a figure made by crosses |
A circle is outside of a figure made by crosses |
|
BP#84 |
A quadrangle is outside of a figure made by circles |
A quadrangle is inside of a figure made by circles |
|
BP#85 |
Three parts |
Five parts |
|
BP#86 |
Three parts |
Five parts |
|
BP#87 |
Four parts |
Five parts |
|
BP#88 |
Three parts |
Five parts |
|
BP#89 |
Three parts |
Five parts |
|
BP#90 |
Three parts |
Four parts |
|
BP#91 |
Three identical elements |
Four identical elements |
|
BP#92 |
The chain does not branch |
The chain branches |
|
BP#93 |
Branches at outlined circle |
Branches at solid dark circle |
|
BP#94 |
Solid dark circle not at end |
Solid dark circle at end |
|
BP#95 |
Vertical hatched lines |
Horizontal hatched lines |
|
BP#96 |
Triangles |
Quadrangles |
|
BP#97 |
Triangles |
Circles |
|
BP#98 |
Triangles |
Quadrangles |
|
BP#99 |
Outlines made by triangles and circles intersect |
Outlines made by triangles and circles do not
intersect |
|
BP#100 |
The letter А |
The letter Б |
|
BP#101 |
Parallel dents |
Perpendicular dents |
|
BP#102 |
Internal arrows point outward |
Internal arrows point inward |
|
BP#103 |
Isosceles triangle |
Scalene triangle |
|
BP#104 |
One circle passes through the center of the other
circle |
No circle passes through the center of the other
circle |
|
BP#105 |
Ends of line point to the same direction |
Ends of line point to opposite directions |
|
BP#106 |
Negative slope |
Positive slope |
|
BP#107 |
Three simple lines |
Three complex lines |
|
BP#108 |
Petals taper off |
Petals thicken |
|
BP#109 |
Circle on the right of the box |
Circle on the left of the box |
|
BP#110 |
Four out of five objects are circles |
Never four out of five objects are circles |
|
BP#111 |
Middle shape is a triangle |
Middle shape is not a triangle |
|
BP#112 |
X-coordinates of dots are equidistant |
Y-coordinates of dots are equidistant |
|
BP#113 |
T-like junction |
Y-like junction |
|
BP#114 |
Four X-like points |
Two X-like points |
|
BP#115 |
Innermost shape is reachable from the outermost
one |
Innermost shape is unreachable from the
outermost one |
|
BP#116 |
Polygon stands on side |
Polygon stands on vertex |
|
BP#117 |
Triangle points to center of circle |
Triangle does not point to center of circle |
|
BP#118 |
No cycle |
A cycle exists |
|
BP#119 |
A small correction will result into a
single circle |
No small correction will result into a
single circle |
|
BP#120 |
All turns are in one direction
alternatively:
Rectangular loop exists |
Turns are not all in one direction
alternatively:
No rectangular loop |
|
BP#121 |
Circle: VV; square: VΛ;
triangle: ΛΛ; blank: ΛV |
Circle: ΛΛ; square:
ΛV; triangle: VV; blank: VΛ |
|
BP#122 |
Line divides interior into two regions |
Not so |
|
BP#123 |
Similar shapes |
Dissimilar shapes |
|
BP#124 |
Similar textures |
Dissimilar textures |
|
BP#125 |
One protrusion and one indentation of the same shape |
Not so |
|
BP#126 |
One large and one small object |
Not so |
|
BP#127 |
Exactly one circle |
Not exactly one circle |
|
BP#128 |
Same objects inside and outside the large shape |
Not same objects inside and outside the large shape |
|
BP#129 |
Indentation on protrusion |
Indentation on indentation |
|
BP#130 |
Closed region is made of curves if “flaws” are
ignored |
Closed region is a polygon if “flaws” are ignored |
|
BP#131 |
Dots are vertices of a parallelogram |
Dots are not vertices of a parallelogram |
|
BP#132 |
Dots are vertices of a triangle standing on a side |
Dots are vertices of a triangle standing on a vertex |
|
BP#133 |
Dots collinear with center of circle |
Dots not collinear with center of circle |
|
BP#134 |
Circle centers are collinear |
Circle centers are not collinear |
|
BP#135 |
Circles on same side of curve |
Circles on different sides of curves |
|
BP#136 |
Concave shape |
Convex shape |
|
BP#137 |
Dots equal in number to the sides of the closed
region |
Dots unequal in number to the sides of the closed
region |
|
BP#138 |
No dot well within the convex hull |
At least one dot well within the convex hull |
|
BP#139 |
Similar components that change regularly |
Not so |
|
BP#140 |
One large shape and two smaller identical ones |
Not so |
|
BP#141 |
Two clusters of three and two objects each |
One cluster of three objects and two
different objects |
|
BP#142 |
Two clusters of three and two that are
adjacent |
Two clusters of three and two that are
not adjacent |
|
BP#143 |
Two clusters of three and two |
Two clusters of four and one |
|
BP#144 |
Two clusters of three and two but sharing a property
alternatively:
Different features yield different 3-2 splits |
Two clusters of three and two, separable
alternatively:
Different features yield the same 3-2 split |
|
BP#145 |
Two clusters of four and one, the four are of same
kind
alternatively:
Different features yield same 4-1 split |
Two clusters of four and one, the four are three and
one
alternatively:
Different features yield different 4-1 splits |
|
BP#146 |
A shape contains a square if and only if
it is a circle |
A shape contains a square if and only if
it is a triangle |
|
BP#147 |
Two clusters of three and two, the two are vertical |
Two clusters of three and two, the two are horizontal |
|
BP#148 |
A little less than a regular shape |
A little more than a regular shape |
|
BP#149 |
Lone square |
Lone circle |
|
BP#150 |
Odd number of squares |
Even number of squares |
|
BP#151 |
If the circle closest to the cross is removed, the
rest form an equilateral triangle |
Not so |
|
BP#152 |
No vertical axis of symmetry |
Vertical axis of symmetry |
|
BP#153 |
Predominance of curves and hook-like
endings |
Predominance of straight lines and
staple-like endings |
|
BP#154 |
Wedged endings |
Rounded endings |
|
BP#155 |
Curves are longer than straight lines |
Curves are shorter than straight lines |
|
BP#156 |
Three spatially separated clusters |
Two spatially separated clusters |
|
BP#157 |
White background |
Black background |
|
BP#158 |
Some slope |
Another slope |
|
BP#159 |
Two clusters of 2+3, middle shape must be
seen as rectangle |
Two clusters of 2+3, middle shape must be
seen as piece of straight line |
|
BP#160 |
Quadrilateral that is nearly a triangle |
Typical quadrilateral |
|
BP#161 |
Midpoints are collinear |
Midpoints are not collinear |
|
BP#162 |
Every other side, if extended, passes through one
point |
Not so |
|
BP#163 |
Line connecting small shapes does not intersect large
one |
Line connecting small shapes intersects large one |
|
BP#164 |
Number of objects is one less than sides |
Number of objects is one more than sides |
|
BP#165 |
Line perpendicular to one side of the object |
Line parallel to one side of the object |
|
BP#166 |
Two clusters of dots |
Three clusters of dots |
|
BP#167 |
Every cluster has two clusters of dots |
Every cluster has three clusters of dots |
|
BP#168 |
Bulky interior, if closed |
Narrow interior, if closed |
|
BP#169 |
Two clusters of different numbers of elements |
Two clusters of equal number of elements |
|
BP#170 |
Π-like shape |
X-like shape |
|
BP#171 |
Angle bisectors meet at the incenter |
Perpendicular bisectors meet at the orthocenter |
|
BP#172 |
Radially symmetric |
Not radially symmetric |
|
BP#173 |
Small variance of slopes |
Large variance of slopes |
|
BP#174 |
Convex central interior |
Concave central interior |
|
BP#175 |
Small object can glide in the bay |
Small object cannot glide in the bay |
|
BP#176 |
Line that connects dots avoiding obstacles is short |
Line that connects dots avoiding obstacles is long |
|
BP#177 |
All interiors are convex |
At least one concave interior |
|
BP#178 |
Center of circle in triangle perpendicular to the
other two |
Not so |
|
BP#179 |
Object thinner at top |
Object thicker at top |
|
BP#180 |
Black region narrows at the boundary or
black/white |
Black region widens at the boundary or
black/white |
|
BP#181 |
One concavity |
Two concavities |
|
BP#182 |
Concave if proximal points are connected |
Convex if proximal points are connected |
|
BP#183 |
Same curvature close to the middle
alternative expression of the same idea:
Tangent near the middle leaves curve on the same side |
Change of curvature close to the middle
alternative expression of the same idea:
Tangent near the middle leaves curve on opposite sides |
|
BP#184 |
Curve is smooth close to the middle |
Curve zigzags close to the middle |
|
BP#185 |
Curve with two complex parts |
Curve with three complex parts |
|
BP#186 |
Object made of objects |
Object made of objects made of objects |
|
BP#187 |
Sides of parts are one more than sides of whole |
Sides of parts are one less than sides of whole |
|
BP#188 |
Shape of whole different from shape of parts |
Shape of whole same as shape of parts |
|
BP#189 |
All clusters are made of objects of the same texture |
Not all clusters are made of objects of the same
texture |
|
BP#190 |
All connected objects have the same texture |
Some connected objects have different textures |
|
BP#191 |
Orifice on the left |
Orifice on the right |
|
BP#192 |
Elongated vertically |
Elongated horizontally |
|
BP#193 |
“Ghost” triangle |
“Ghost” rectangle |
|
BP#194 |
Background is a parallelogram |
Background is a triangle |
|
BP#195 |
Bottom object in front of top objects in 3-D |
Bottom object behind top objects in 3-D |
|
BP#196 |
Light-colored texture |
Dark-colored texture |
|
BP#197 |
Some style (font) |
Another style (font) |
|
BP#198 |
Stays in
alternative lower-level expression of the same
idea:
One end of the chain is inside the large shape |
Escapes
alternative lower-level expression of the same
idea:
Both ends of the chain are outside the large shape |
|
BP#199 |
Stays put
alternative lower-level expression of the same
idea:
Vertical from barycenter intersects the base of the object |
Tumbles
alternative lower-level expression of the same
idea:
Vertical from barycenter avoids the base of the object |
|
BP#200 |
Bongard Problem with solution based on features |
Bongard Problem with solution based on numerosity |
|
BP#201 |
Two of the shapes make tiles along their border
lines |
Not so |
|
BP#202 |
Even number |
Odd number |
|
BP#203 |
Prime number |
Composite number |
|
BP#204 |
Five |
Four |
|
BP#205 |
Two clusters of two elements each |
Not so |
|
BP#206 |
Curve ends in a roughly up or down direction |
Curve ends in a roughly left or right direction |
|
BP#207 |
Curve ends on the left part of the box |
Curve ends on the right part of the box |
|
BP#208 |
All curves spiral counterclockwise, starting from maximum
curvature |
All curves spiral clockwise, starting from maximum
curvature |
|
BP#209 |
No objects are centered at the center of the box |
One object is centered at the center of the box |
|
BP#210 |
Part of at least one object is out of box |
All objects are within the box |
|
BP#211 |
More black than white |
More white than black |
|
BP#212 |
No dot is too far apart from another dot |
At least one dot is far apart from all other dots |
|
BP#213 |
Curve intersects itself at the point of greatest
curvature |
Not so |
|
BP#214 |
“Smiley face” |
Not a "smiley face” |
|
BP#215 |
“Mouth” concave upwards |
“Mouth” convex upwards |
|
BP#216 |
“Ink tip” (non-homogeneous line) |
“Marker tip” (homogeneous line) |
|
BP#217 |
Perfectly drawn lines |
Imperfectly drawn lines |
|
BP#218 |
Something is missing in the sequence |
Nothing is missing in the sequence |
|
BP#219 |
Parallel curves |
Non-parallel curves |
|
BP#220 |
One cluster |
Two clusters |
|
BP#221 |
No small square at the end of any curve
alternatively:
Curves with a 3-D feeling |
Curve ends at a small square
alternatively:
Flat (2-D) curves |
|
BP#222 |
Border of black rectangle is incomplete |
Border of black rectangle is complete |
|
BP#223 |
Large black region if completed is a circle |
Large black region if completed is an ellipse |
|
BP#224 |
Diametrically opposite objects affect similarly the
large black circular region |
Not so |
|
BP#225 |
Low contrast
alternative lower-level expression of the same
idea:
No fully black region |
High contrast
alternative lower-level expression of the same
idea:
At least one fully black region |
|
BP#226 |
What comes out of black circle has a clockwise
direction |
Not so |
|
BP#227 |
Dots touch each other if and only if no large region
touches the edges of the box |
Dots don’t touch each other if and only if no large
region touches the edges of the box |
|
BP#228 |
After rotating so that the longest line is
horizontal, there is a “left arm” raised and a “weight” down |
After rotating so that the longest line is
horizontal, there is a “left arm” down and a “weight” raised |
|
BP#229 |
When the objects are rotated and their dots are
overlapped and eliminated, they form three-square-tall structures with columns of the
same color |
Not so |
Explanation / justification of BP#229
by its creator:
Long (doubly sized) objects are purines (A & G).
Short objects are pyrimidines (C & T).
Black are those forming triple Hbond (G and C).
White are those forming double Hbond (A & T).
On the left we have “matching codes”, i.e., bases,
doublets or triplets that, when rotated, can pair
correctly (A with T, G with C), binding the two
“strands”.
On the right we have objects that no
matter how they are rotated they do not pair correctly
(because of bumps, wrong color codes, etc).
|
|
BP#230 |
The sum of vertices, line ends, and dots is 7 |
Not so |
|
BP#231 |
Five concavities |
Not five concavities |
|
BP#232 |
Box divided into six areas |
Box divided into four areas |
|
BP#233 |
Lines plus triangles equal stars |
Lines minus triangles equal stars |
|
BP#234 |
Circle falls by gravity on the right half
of box if let loose |
Circle falls by gravity on the left half
of box if let loose |
|
BP#235 |
The “rope”, if extended, reaches the
other ball |
The “rope”, if extended, does not reach
the other ball |
|
BP#236 |
Texture with stripy squiggle |
Texture with blotchy squiggle |
|
BP#237 |
Upper central line appears shorter
than lower central line |
Upper central line appears longer
than lower central line |
|
BP#238 |
C-like curves point to the same
direction |
C-like curves point to opposite
directions |
|
BP#239 |
Straight line parallel to line joining
the ends of curve
alternatively:
Sliding the straight line suitably can make a closed area |
Straight line perpendicular to line
joining the ends of curve
alternatively:
Not so |
|
BP#240 |
Straight line joining the curve ends does
not cut the curve |
Straight line joining the curve ends
intersects the curve |
|
BP#241 |
Circumference shorter than length of
everything else |
Circumference longer than length of
everything else |
|
BP#242 |
Convex hull is a square |
Convex hull is not a square |
|
BP#243 |
Triangle closer to box corner than any of
the circles |
Not so |
|
BP#244 |
Scanning left-to-right, top-to-bottom,
each filled box is separated from the next filled box by the same number
of empty boxes |
Not so |
|
BP#245 |
Can be completed to be made into a
rectangle |
Cannot be completed to be made into a
rectangle |
|
BP#246 |
Equal numbers of straight lines and
continuous curves |
Unequal numbers of straight lines and
continuous curves |
|
BP#247 |
Five straight or curved lines |
Not five straight or curved lines |
|
BP#248 |
Dashed lines inside solid shape make an
identical but slightly smaller shape, “parallel” to the one outside |
Not so |
|
BP#249 |
Dashed lines form the same shape centered
inside |
Not so |
|
BP#250 |
Tetrahedron projected on the box plane
alternative lower-level expression of the same
idea:
Four points interconnected with straight lines where one of the points
might lie on an edge |
Not so |
|
BP#251 |
Tetrahedron projected on the box plane |
Not so |
|
BP#252 |
Impossible solid in 3-D |
Possible solid in 3-D |
|
BP#253 |
Prime number
solution without using the arithmetic concept of
primality:
It is impossible to create subgroups all of which have the same number
of two-or-more identically shaped objects |
Composite number
solution without using the arithmetic concept of
primality:
It is possible to create subgroups all of which have the same number of
two-or-more identically shaped objects |
|
BP#254 |
Circle and two vertices are collinear |
No two vertices and the circle are
collinear |
|
BP#255 |
Three pairs of parallel and non-collinear
pieces of straight lines, each pair
with a different slope |
Not so |
|
BP#256 |
Each large circle closer to a small
circle than a large one, and each small circle closer to a large one
than a small one |
Not so |
|
BP#257 |
The distance from the center of the line
to the bottom of the square is the same as the distance from the dot to
the right edge of the square |
Not so |
|
BP#258 |
Objects identical after mirroring
horizontally |
Objects identical after mirroring
vertically |
|
BP#259 |
Two identical overlapping objects of
which the top is rotated slightly clockwise |
Not so |
|
BP#260 |
Squares are either all empty or all
contain something |
Not so |
| BP#261 |
Straight lines that join filled and
outlined circles intersect |
Straight lines that join filled and
outlined circles do not intersect |
|
BP#262 |
Exactly one point where lines bend at an
angle |
Not exactly one point where lines bend at
an angle |
|
BP#263 |
At least one ending edge is straight |
All ending edges are curved |
| BP#264 |
Closed area |
No closed area |
| BP#265 |
Axis of symmetry |
No axis of symmetry |
| BP#266 |
At least one touch or cross point |
No touch or cross point |
| BP#267 |
Odd number of straight line segments |
Even number of straight line segments |
| BP#268 |
Convex hull elongated vertically |
Convex hull elongated horizontally |
| BP#269 |
Center of symmetry |
No center of symmetry |
| BP#270 |
Only vertical or horizontal lines |
Neither vertical nor horizontal lines |
| BP#271 |
Can be hand-written without raising the
pen |
Cannot be hand-written without raising
the pen |
| BP#272 |
Convex hull is a triangle |
Convex hull is a quadrilateral |
| BP#273 |
Stays put |
Tumbles |
| BP#274 |
Notch from above (holds poured water) |
No notch from above (does not hold poured
water) |
| BP#275 |
Straight line joining the ends does not
intersect the object |
Straight line joining the ends intersects
the object |
| BP#276 |
At least one endpoint |
No endpoints |
| BP#277 |
One object |
Two or more objects |
| BP#278 |
Shorter on the left, taller on the right |
Taller on the left, shorter on the right |
| BP#279 |
The left part has more pixels than the
right part |
The left part has fewer pixels than the
right part |
| BP#280 |
The left part is wider than the right
part |
The left part is narrower than the right
part |
|
BP#281 |
Equal number of horizontal and vertical
lines |
Unequal number of horizontal and vertical
lines |
|
BP#282 |
Shape of black region same as overall
shape of object |
Shape of black region different from
overall shape of object |
|
BP#283 |
Rectangle left after tiling all black
shapes into empty square |
Triangle left after tiling all black
shapes into empty square |
|
BP#284 |
Half of the square is filled |
Either more or less than half of the
square is filled |
|
BP#285 |
The centers (“barycenters”) of the
objects are collinear |
The centers (“barycenters”) of the
objects are not collinear |
|
BP#286 |
Decreasing in size from top to bottom |
Increasing in size from top to bottom |
|
BP#287 |
“Rays” emanating from a central point
alternative lower-level expression of the same
idea:
Altitudes of isosceles triangles meet at a point if extended from top to
base |
Not so |
|
BP#288 |
The sum of the ratios of the filled areas
is 1 |
The sum of the ratios of the filled areas
is other than 1 |
|
BP#289 |
Shapes, if tiled up properly, form a
square |
Shapes cannot form a square no matter how
they are tiled |
|
BP#290 |
If any non-nosed faces exist, they are
happy if and only if happy nosed faces exist as well |
Not so |
|
BP#291 |
The shapes in the large square never
appear outside of it |
At least one shape in the large square
appears outside of it |
|
BP#292 |
Angle made by shapes with vertex at
square is not acute |
Angle made by shapes with vertex at
square is acute |
|
BP#293 |
Square divided into four areas of the
same size and shape |
Not so |
|
BP#294 |
The two points are reachable through a
path |
The two points are unreachable by any
path |
|
BP#295 |
Line joins large and small square |
Line joins the two middle-sized squares |
|
BP#296 |
All three sizes are present |
Only two of the three sizes present |
|
BP#297 |
“Ghost shape” is square |
“Ghost shape” is rectangular |
|
BP#298 |
One of the two small squares is near the
lower-right corner |
One of the two small squares is near the
upper-right corner |
|
BP#299 |
Lines if slightly extended make up a
regular polygon |
Lines if slightly extended cannot make up
a regular polygon |
|
BP#300 |
Acceleration and deceleration |
Constant speed |
|
BP#301 |
Large and medium-sized square, the latter
can be hidden |
Large and small-sized square, the latter
can be hidden |
|
BP#302 |
Collinear objects, of which the 3rd is
moved elsewhere |
Collinear objects, of which the 2nd/4th
is moved elsewhere |
|
BP#303 |
Three objects are identical, the fourth
differs |
Not so |
|
BP#304 |
At least one (interior or exterior) right
angle |
No right angle (either interior or
exterior) |
|
BP#305 |
Shapes identical after rotation |
Shapes identical after rotation and
mirroring |
|
BP#306 |
Ratio of inside to outside identical
shapes is constant |
Not so |
|
BP#307 |
Barycenter of each cluster of dots near a
vertex
alternative:
Three or more small clusters of dots |
Not so |
|
BP#308 |
Three or more small clusters of dots |
Not so |
|
BP#309 |
Ball touches curve at a point of local
minimum downwards |
Ball touches curve at a point of local
maximum upwards |
|
BP#310 |
Enclosed square “repelled” by the outside
squares, closest to the side of the enclosing square that’s farthest
from the common center of the outside squares. |
Enclosed square “attracted” by the
outside squares, closest to the side of the enclosing square that’s
closest to the common center of the outside squares. |
|
BP#311 |
Number of sides – number of pluses = 3 |
Number of sides – number of pluses = 4 |
|
BP#312 |
Lines intersect within the box |
Lines intersect out of the box |
|
BP#313 |
Closed curves clockwise, open curves
counterclockwise |
Closed curves counterclockwise, open
curves clockwise |
|
BP#314 |
Long distance between the marked
locations |
Short distance between the marked
locations |
|
BP#315 |
One area unreachable by the marked
locations |
All areas reachable by the marked
locations |
|
BP#316 |
At least one path is a cycle |
No path is a cycle |
|
BP#317 |
Number of enclosed dots proportional to
the circle size |
Not so |
|
BP#318 |
The numbers of dots are in sequence |
Not so |
|
BP#319 |
The number of dots in one cluster is a
multiple of the other |
Not so |
|
BP#320 |
The numbers of dots in the two clusters
are approximately equal |
The numbers of dots in the two clusters
differ a lot
|
|
BP#321 |
Small round object unreachable from the
border of the box |
Small round object reachable from the
border of the box |
|
BP#322 |
One outer outline |
More than one outer outline |
|
BP#323 |
Jigsaw puzzle pieces can be assembled
into a square |
Jigsaw puzzle pieces cannot be assembled
into a square |
|
BP#324 |
Left shapes can be placed on top of each
other to make right shape |
Not so |
|
BP#325 |
Left shapes can combine by symmetric
difference (“xor” logical operator) to make right shape |
Left shapes can combine by intersection
(“and” logical operator) to make right shape |
|
BP#326 |
Straight line tangent to circle |
Straight line not tangent to circle |
|
BP#327 |
Straight line tangent to curve |
Straight line not tangent to curve |
|
BP#328 |
All sides are equal |
All angles are equal |
|
BP#329 |
Regular polygon |
Not regular polygon |
|
BP#330 |
1-D (line drawing, locally straight line) |
2-D |
|
BP#331 |
2-D (surface, locally flat) |
3-D |
|
BP#332 |
Transparent solid |
Opaque solid |
|
BP#333 |
Platonic solid (regular polyhedron) |
Not a platonic solid |
|
BP#334 |
Odd number of dots |
Even number of dots |
|
BP#335 |
Tessellates the plane |
Does not tessellate the plane |
|
BP#336 |
One gear turns all |
No gear turns all |
|
BP#337 |
Black is below upward slopes |
Black is below downward slopes |
|
BP#338 |
High approximate similarity |
Low approximate similarity |
|
BP#339 |
Union of left sets is right set |
Intersection of left sets is right set |
|
BP#340 |
Regular star polygons that can be traced
vertex-to-vertex in a continuous fashion |
Not so |
|
BP#341 |
Strictly increasing or strictly
decreasing border line |
Both increasing and decreasing border
line |
|
BP#342 |
Exactly one axis of symmetry |
Either zero or more than one axis of
symmetry |
|
BP#343 |
No two shapes are the same |
At least two shapes are the same |
|
BP#344 |
Shape can tile with itself so as to
create a parallelogram |
Shape cannot tile with itself so as to
create a parallelogram |
|
BP#345 |
Intersection of circle and square |
Union of circle and square |
|
BP#346 |
Object on the right fits in category on
the left |
Object on the right does not fit in
category on the left |
|
BP#347 |
No pattern (variety of shapes) |
All shapes have something in common |
|
BP#348 |
Shape on the right is the convex hull of
shape on the left |
Not so |
|
BP#349 |
One object does not belong to the
category of the rest |
All objects form one category |
|
BP#350 |
Some quantity keeps increasing from left
to right |
Not so |
|
BP#351 |
Discrete quantity |
Continuous quantity |
|
BP#352 |
Quantity has no lower bound |
Quantity has lower bound |
|
BP#353 |
Increasing quantity may loop back to
starting value |
Increasing quantity cannot loop back to
starting value |
|
BP#354 |
Angular quantity |
Infinitely increasing quantity |
|
BP#355 |
Fractal iteration based on 2-D (shapes) |
Fractal iteration based on 1-D (lines) |
|
BP#356 |
Object at lower-right fits as n-th
item in the top row of objects, where n is the number of dots at
lower-left |
Not so |
|
BP#357 |
Decelerating change in quantity,
left-to-right |
Accelerating change in quantity,
left-to-right |
|
BP#358 |
The circles will collide if the arrows
are their velocities |
The circles will not collide if the
arrows are their velocities |
|
BP#359 |
Random arrangement of dots |
Non-random (patterned) arrangement of
dots |
|
BP#360 |
Order is high (low entropy) |
Order is low (high entropy) |
|
BP#361 |
Analogy makes sense |
Analogy does not make sense |
|
BP#362 |
Choice that solves the analogy exists |
Choice that solves the analogy does not
exist |
|
BP#363 |
Counterclockwise along the curve
following the arrow |
Clockwise along the curve following the
arrow |
|
BP#364 |
Two clearly separable groups |
No clearly separable groups |
|
BP#365 |
Two independent quantities changing
simultaneously |
A single quantity is changing |
|
BP#366 |
White dot is at center of mass |
White dot is not at center of mass |
|
BP#367 |
Center of mass within the black area of
the shape |
Center of mass out of the black area of
the shape |
|
BP#368 |
There is a point that can “see” (in
straight lines) all points |
There is no point that can “see” (in
straight lines) all points |
|
BP#369 |
Pairs of points (small white circles) on
one curve can be glued together to make the other curve |
Not so |
|
BP#370 |
Gluing sides with the same symbols makes
a sphere |
Gluing sides with the same symbols makes
a torus |
|
BP#371 |
Net (folding along edges can make a 3D
solid) |
No net |
|
BP#372 |
Object belongs to the left-hand side
category |
Object belongs to the right-hand side
category |
|
BP#373 |
Intersection (logical conjunction) |
Union (logical disjunction) |
|
BP#374 |
Simple object |
Complex object |
|
BP#375 |
Representationally uniform |
Representationally non-uniform |
|
BP#376 |
A “chess” piece moving as shown may reach
every square |
Not so |
|
BP#377 |
The two objects have similar
representations |
The two objects have dissimilar
representations |
|
BP#378 |
The two objects are conceptually related |
The two objects are conceptually
unrelated |
|
BP#379 |
Complete set |
Incomplete set |
|
BP#380 |
The set indicated by the objects is
finite |
The set indicated by the objects is
infinite |
|
BP#381 |
Adding the top two waves yields the
bottom wave |
Not so |
|
BP#382 |
No knot (“unknot”) |
Knot |
|
BP#383 |
When the shape is removed from the dots,
the dots give enough information to place the shape back where it was |
Not so |
|
BP#384 |
Square number of dots |
Not a square number of dots |
|
BP#385 |
Nets of cubes |
No nets of cubes |
|
BP#386 |
Lower shape can be used as a tile to
build the upper one |
Not so |
|
BP#387 |
Dots can be shared equally between
figures |
Dots cannot be shared equally between
figures |
|
BP#388 |
White dot can “see” (in straight lines)
all black points |
White dot cannot “see” (in straight
lines) all black points |
|
BP#389 |
Loops are “entangled” (in 3-D) |
Loops can be separated (in 3-D) |
|
BP#390 |
Each graph vertex is uniquely defined by
its connections (the graph does not admit nontrivial automorphisms) |
The graph admits nontrivial automorphisms |
|
BP#391 |
There exists en edge such that removing
it yields two disconnected graphs (i.e., the minimum number of edges
whose removal results in two disconnected graphs is 1) |
The minimum number of edges whose removal
results in two disconnected graphs is 2 |
|
BP#392 |
Exponential increase |
Linear increase |
|
BP#393 |
Correct |
Incorrect |
|
BP#394 |
For each colored square only, there
exists a path starting on it that covers each square of the figure
exactly once |
There is no path that starts on a colored
square and covers each square of the figure exactly once |