id large_stringlengths 8 8 | prompt large_stringlengths 177 510 | answer large_stringlengths 1 39 |
|---|---|---|
39425039 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 1.52s, distance = 14.07 m
For t = 1.76s, distance = 18.87 m
For t = 4.34s, distance = 114.72 m
For t = 1.97s, distance = 23.64 m
For t = 3.27s, distance = 65.12 m
Now, determine the falling distance ... | 72.49 |
07434d56 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
10100010 -> 00110100
00110110 -> 01100110
01000101 -> 010110... | 11011001 |
a0e44f72 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 1.07s, distance = 9.05 m
For t = 1.41s, distance = 15.71 m
For t = 2.6s, distance = 53.41 m
For t = 3.37s, distance = 89.73 m
Now, determine the falling distance for t = 2.78s given d = 0.5*g*t^2. | 61.06 |
cd013121 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
86 -> LXXXVI
5 -> V
48 -> XLVIII
Now, write the number 2 in the Wonderland numeral system. | II |
a6319294 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
40.51 m becomes 49.50
20.9 m becomes 25.54
22.45 m becomes 27.43
13.52 m becomes 16.52
Now, convert the following measurement: 40.35 m | 49.30 |
38203f70 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 1.38s, distance = 9.83 m
For t = 3.93s, distance = 79.68 m
For t = 2.25s, distance = 26.12 m
For t = 2.6s, distance = 34.88 m
Now, determine the falling distance for t = 2.77s given d = 0.5*g*t^2. | 39.59 |
d3461858 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
40 -> XL
53 -> LIII
34 -> XXXIV
28 -> XXVIII
Now, write the number 23 in the Wonderland numeral system. | XXIII |
13aeb4e7 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
bkwq enpytpg yafmp fepyw -> king creates above ocean
tvp ikgp dnkwepgg hnyig -> the wise princess draws
tzntsp gtzhkpg zwhpn ofnpgt -> turtle studies under forest
Now, decrypt the following text: hnyqfw enpytpg tvp gksmpn hffn | dragon creates the silver door |
4e177b84 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
50 -> L
1 -> I
48 -> XLVIII
37 -> XXXVII
39 -> XXXIX
Now, write the number 86 in the Wonderland numeral system. | LXXXVI |
dd2549dd | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
mysxgp wqqw cnq vgigybri mggy -> dragon sees the colorful door
hdesym hydcqw vykwcsi -> wizard writes crystal
cryciq bgrpm dpwdmq dwispm -> turtle found inside island
Now, decrypt the following text: ysffdc hscvnqw dpwdmq xsymqp | rabbit watches inside garden |
2e37e963 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
58*91 = 6161
52+78 = 311
95*65 = 5033
56-97 = -41
32*14 = 449
Now, determine the result for: 71-86 | -15 |
4e694caf | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
34.25 m becomes 61.37
44.78 m becomes 80.24
41.65 m becomes 74.63
13.35 m becomes 23.92
6.88 m becomes 12.33
Now, convert the following measurement: 26.25 m | 47.03 |
30763ac0 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
67-47 = 2
89+97 = 671
14-72 = 41
18+79 = 771
Now, determine the result for: 79+44 | 041 |
b075e716 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
53[16 = 68
51[77 = 127
70-54 = 16
52[61 = 112
Now, determine the result for: 30+80 | 2400 |
4246eb0b | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 1.39s, distance = 8.45 m
For t = 1.24s, distance = 6.72 m
For t = 3.5s, distance = 53.55 m
For t = 4.85s, distance = 102.82 m
Now, determine the falling distance for t = 1.32s given d = 0.5*g*t^2. | 7.62 |
9b68812c | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
8 -> VIII
87 -> LXXXVII
28 -> XXVIII
Now, write the number 53 in the Wonderland numeral system. | LIII |
0982db70 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
69 -> LXIX
79 -> LXXIX
99 -> XCIX
Now, write the number 23 in the Wonderland numeral system. | XXIII |
f960e029 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 3.32s, distance = 94.89 m
For t = 3.51s, distance = 106.06 m
For t = 4.55s, distance = 178.22 m
For t = 4.92s, distance = 208.39 m
For t = 3.99s, distance = 137.05 m
Now, determine the falling distan... | 60.46 |
34ffc4b7 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 1.09s, distance = 5.19 m
For t = 3.78s, distance = 62.47 m
For t = 1.47s, distance = 9.45 m
Now, determine the falling distance for t = 2.24s given d = 0.5*g*t^2. | 21.94 |
d4bea0cd | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
43.96 m becomes 70.38
47.98 m becomes 76.81
32.7 m becomes 52.35
36.79 m becomes 58.90
24.42 m becomes 39.10
Now, convert the following measurement: 9.83 m | 15.74 |
2fdbd66d | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 2.92s, distance = 29.5 m
For t = 1.19s, distance = 4.9 m
For t = 2.28s, distance = 17.99 m
For t = 3.06s, distance = 32.4 m
For t = 4.86s, distance = 81.72 m
Now, determine the falling distance for t... | 6.31 |
eb359ea5 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
00100010 -> 10001000
01011100 -> 01110000
00111101 -> 111101... | 01100100 |
2407eee3 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 3.64s, distance = 64.53 m
For t = 3.48s, distance = 58.99 m
For t = 3.86s, distance = 72.57 m
Now, determine the falling distance for t = 1.39s given d = 0.5*g*t^2. | 9.41 |
75ecd32c | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
01111011 -> 11011110
11011000 -> 00110110
00011110 -> 100001... | 11100011 |
bc2649ba | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 4.08s, distance = 108.14 m
For t = 4.64s, distance = 139.87 m
For t = 3.75s, distance = 91.36 m
For t = 1.61s, distance = 16.84 m
For t = 1.55s, distance = 15.61 m
Now, determine the falling distance... | 116.79 |
bb0abecc | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
11100101 -> 00001110
11111111 -> 10001111
01110011 -> 100000... | 00000010 |
d2ff6b6f | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
83 -> LXXXIII
15 -> XV
21 -> XXI
Now, write the number 44 in the Wonderland numeral system. | XLIV |
c55729f0 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
33 -> XXXIII
26 -> XXVI
51 -> LI
64 -> LXIV
Now, write the number 32 in the Wonderland numeral system. | XXXII |
707acef3 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
11100100 -> 01001110
10000110 -> 01011000
10010110 -> 010110... | 00000001 |
fab7251a | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
enibtln rukete ilbtw rkqt -> student chases under cave
nut hkdarkx kxart rwtknte -> the magical alice creates
nut uabbtl gawb baeroqtwe -> the hidden bird discovers
enibtln bwkye nut doxbtl fowten -> student draws the golden forest... | the mysterious turtle reads |
58a562f8 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
32.64 m becomes 61.57
18.63 m becomes 35.14
43.35 m becomes 81.77
7.1 m becomes 13.39
Now, convert the following measurement: 25.72 m | 48.52 |
bb21ad10 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
rcmdik ayxjw epzzly -> knight reads puzzle
hmaj ayxjw kiabpdi nmllxdy -> bird reads through village
kiy wmlnya qbpwy wyyw -> the silver mouse sees
Now, decrypt the following text: wkpjyck jayxqw txwkly | student dreams castle |
9cbbfd73 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
uws nwsuotl ktwd luoiiy -> cat watches near school
svdsyt udtwstl ak iutwk -> turtle creates in ocean
sot oapptk owsstd pdtwjl -> the hidden hatter dreams
rdakutll lsvpatl sodivco rwywut -> princess studies through palace
Now, decr... | the curious princess found |
82721bb8 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
73 -> LXXIII
86 -> LXXXVI
51 -> LI
44 -> XLIV
61 -> LXI
Now, write the number 90 in the Wonderland numeral system. | XC |
84b0c936 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
sfr bqozfs moyz jqosrg -> the bright king writes
xwoir jqosrg sfr uxzoixw ahccwr -> alice writes the magical puzzle
boqt tqxjg sfr znwtry griqrs -> bird draws the golden secret
unhgr iqrxsrg sfr griqrs mrv -> mouse creates the secr... | cat explores book |
27ca638a | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 4.12s, distance = 133.21 m
For t = 3.56s, distance = 99.46 m
For t = 2.49s, distance = 48.66 m
For t = 2.13s, distance = 35.6 m
Now, determine the falling distance for t = 4.17s given d = 0.5*g*t^2. | 136.46 |
b9fe8578 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
25.89 m becomes 48.04
44.79 m becomes 83.11
7.35 m becomes 13.64
Now, convert the following measurement: 32.16 m | 59.68 |
40c53743 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
06-45 = 6
49*58 = 1997
22*17 = 3651
42-65 = -23
69*08 = 1867
Now, determine the result for: 24*88 | 7963 |
6a41d37b | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
10100011 -> 10100111
10010001 -> 11000110
00001100 -> 101111... | 00101011 |
906f7b85 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
62 -> LXII
56 -> LVI
37 -> XXXVII
32 -> XXXII
94 -> XCIV
Now, write the number 64 in the Wonderland numeral system. | LXIV |
fe3c4763 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
xzj krmxjfqwym uqae owppwnm -> the mysterious king follows
xzj bwpwfoyp nqivfs qkveqajm -> the colorful wizard imagines
uqae fjvsm xzj kveqbvp bvmxpj -> king reads the magical castle
dyjja jltpwfjm mjbfjx -> queen explores secret
N... | mouse creates in valley |
b4a5076f | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
84!87 = 03
95<16 = 021
88!71 = 3
38<94 = 231
12$38 = 3471
Now, determine the result for: 62<13 | 75 |
a30599e8 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
9 -> IX
94 -> XCIV
23 -> XXIII
70 -> LXX
Now, write the number 6 in the Wonderland numeral system. | VI |
9c46baa8 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
86 -> LXXXVI
76 -> LXXVI
51 -> LI
17 -> XVII
34 -> XXXIV
Now, write the number 72 in the Wonderland numeral system. | LXXII |
98031059 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
17.17 m becomes 17.69
13.02 m becomes 13.42
6.48 m becomes 6.68
Now, convert the following measurement: 35.54 m | 36.62 |
cd2e20b9 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
>%*{` = /]/
%{+/` = `}
%/+>} = "``
Now, determine the result for: >>+{` | ||` |
bc7f14d1 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
67&31 = 98
44{46 = 02{
61:01 = 061
Now, determine the result for: 79&45 | 151 |
e6af1658 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
){-}! = /"
["+/] = /#{
"}-/) = {/
"]+() = [!
}]-]{ = /"
Now, determine the result for: )]*][ | )})/ |
982c0b42 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
%%+"| = ?'%
?^-#" = &%
|%-?^ = #
^?+|| = %?%
%!*|! = |''}
Now, determine the result for: ^&*"& | ^}|% |
f66f0fe0 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
77{76 = 9515
65{91 = 4601
42{71 = 804
Now, determine the result for: 14{79 | 7793 |
696f0641 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
35.55 m becomes 18.16
44.68 m becomes 22.82
12.82 m becomes 6.55
19.02 m becomes 9.72
Now, convert the following measurement: 35.25 m | 18.01 |
b6a96559 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
tgptri cxgfm tsi upwnst hed -> turtle found the bright map
peuuwt letbsiq qibpit -> rabbit watches secret
agiif qtgmwiq dgvvri -> queen studies puzzle
agiif whenwfiq hiqqeni -> queen imagines message
dpwfbiqq qtgmwiq hwppxp -> prin... | rabbit sees treasure |
fcbb35e3 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
10001010 -> 10100111
10000100 -> 11101101
01001100 -> 101111... | 10101101 |
0b32a4fc | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
amt mfyyts dfwy cwtxatv -> the hidden bird creates
atxcmtw vttv dtpnsy rfdwxwp -> teacher sees beyond library
gfsj hwfatv lsytw anhtw -> king writes under tower
Now, decrypt the following text: alwart ywtxov vanwp | turtle dreams story |
d304eec8 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 2.37s, distance = 33.85 m
For t = 1.91s, distance = 21.98 m
For t = 4.48s, distance = 120.95 m
For t = 1.4s, distance = 11.81 m
For t = 2.31s, distance = 32.16 m
Now, determine the falling distance f... | 48.26 |
d46f3a25 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
00110001 -> 01000110
10000011 -> 00000100
00111001 -> 011001... | 00000000 |
80332047 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
8 -> VIII
62 -> LXII
21 -> XXI
56 -> LVI
Now, write the number 20 in the Wonderland numeral system. | XX |
fd0d1430 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 2.88s, distance = 60.93 m
For t = 1.82s, distance = 24.33 m
For t = 3.12s, distance = 71.51 m
For t = 2.29s, distance = 38.52 m
For t = 2.1s, distance = 32.39 m
Now, determine the falling distance fo... | 130.2 |
e80d8872 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
10001011 -> 00010111
11000110 -> 10000101
01001001 -> 011111... | 00000111 |
4c1962eb | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
kzxl qyjjyfb vtlex udjdae -> bird follows under palace
ado qyvtl oge myjlet sebbdme -> cat found the golden message
ovxoje fdoageb oge beaxeo uyozyt -> turtle watches the secret potion
gdooex axedoeb oge gzllet sdu -> hatter create... | teacher dreams crystal |
ddc8ab31 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
34 -> XXXIV
79 -> LXXIX
4 -> IV
10 -> X
97 -> XCVII
Now, write the number 24 in the Wonderland numeral system. | XXIV |
c095f799 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
00001011 -> 00100010
10110000 -> 00100111
10000111 -> 000001... | 10011111 |
a52c726c | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
|?*'| = |{'?
'?-]] = )<
]$-?' = <'
]]+{) = <?
"<*?? = <'{$
Now, determine the result for: <?*"$ | ])?$ |
fa6bd888 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
24.79 m becomes 30.68
15.07 m becomes 18.65
34.64 m becomes 42.87
17.83 m becomes 22.07
46.31 m becomes 57.31
Now, convert the following measurement: 22.53 m | 27.88 |
275db7d4 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
35"65 = 100
68"97 = 165
19@78 = @59
88@42 = @46
72"58 = 130
Now, determine the result for: 62:21 | 6221 |
fb87d8fd | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
13.96 m becomes 16.58
11.84 m becomes 14.07
8.42 m becomes 10.00
10.82 m becomes 12.85
17.17 m becomes 20.40
Now, convert the following measurement: 24.91 m | 29.59 |
65add53a | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
[?*?\ = !\!]
]%+&& = %[]
%}+}& = [?
Now, determine the result for: }^*%] | ]}% |
66f9fe57 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
10011000 -> 00000000
01111011 -> 10110111
01001100 -> 100000... | 00100000 |
42bde66c | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
/^*#{ = #{/^
)&-#< = -(^
(^+<{ = {(
Now, determine the result for: #<+#/ | >) |
fe74312a | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
73 -> LXXIII
100 -> C
67 -> LXVII
Now, write the number 90 in the Wonderland numeral system. | XC |
b61470ef | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
00101011 -> 01100011
11100000 -> 00000111
01100001 -> 011001... | 10110111 |
923e1560 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
33.69 m becomes 36.98
5.25 m becomes 5.76
19.53 m becomes 21.44
48.57 m becomes 53.31
47.68 m becomes 52.33
Now, convert the following measurement: 24.57 m | 26.97 |
04183bf9 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
01100011 -> 10001101
00001000 -> 00100000
11000000 -> 000000... | 10010000 |
0fb5ac48 | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
67 -> LXVII
19 -> XIX
18 -> XVIII
11 -> XI
Now, write the number 76 in the Wonderland numeral system. | LXXVI |
38857bea | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 2.78s, distance = 39.91 m
For t = 2.36s, distance = 28.76 m
For t = 2.7s, distance = 37.64 m
For t = 4.26s, distance = 93.71 m
For t = 2.09s, distance = 22.55 m
Now, determine the falling distance fo... | 122.46 |
1c19ad3e | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
00101010 -> 01000101
01011001 -> 01100100
01100001 -> 101110... | 00100100 |
16122fba | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
01000001 -> 11100111
00111110 -> 11101111
00010010 -> 010011... | 11000111 |
ef260f7c | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 4.52s, distance = 100.21 m
For t = 2.12s, distance = 22.04 m
For t = 4.4s, distance = 94.96 m
For t = 3.17s, distance = 49.29 m
For t = 3.85s, distance = 72.7 m
Now, determine the falling distance fo... | 6.04 |
6c75859f | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
31.41 m becomes 36.31
35.51 m becomes 41.05
41.82 m becomes 48.35
49.19 m becomes 56.87
21.02 m becomes 24.30
Now, convert the following measurement: 20.16 m | 23.31 |
0290f51a | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
01011010 -> 00101011
10100100 -> 01010111
10110001 -> 101101... | 10101111 |
ed9827dc | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
14.5 m becomes 21.34
44.72 m becomes 65.81
49.43 m becomes 72.74
46.46 m becomes 68.37
47.3 m becomes 69.61
Now, convert the following measurement: 31.33 m | 46.11 |
c84c150e | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
11010110 -> 01001101
01000001 -> 00010100
01111101 -> 000101... | 00010001 |
c307fa93 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 4.24s, distance = 154.0 m
For t = 1.72s, distance = 25.34 m
For t = 4.35s, distance = 162.09 m
For t = 1.8s, distance = 27.75 m
Now, determine the falling distance for t = 1.98s given d = 0.5*g*t^2. | 33.58 |
99cc2e07 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
43^12 = 1243
06/67 = /61
63/47 = /83
Now, determine the result for: 22/15 | /92 |
cfebb054 | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 4.27s, distance = 118.18 m
For t = 2.33s, distance = 35.19 m
For t = 1.01s, distance = 6.61 m
For t = 3.47s, distance = 78.04 m
For t = 4.87s, distance = 153.72 m
Now, determine the falling distance ... | 94.58 |
1afd4ae3 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
11.5 m becomes 9.98
21.72 m becomes 18.85
5.16 m becomes 4.48
Now, convert the following measurement: 29.19 m | 25.33 |
fbd58e38 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
qizx jhtwlmje ejnmjv -> king explores secret
rlgej ykvnuje vuj fmixuv qja -> mouse watches the bright key
rlgej omkye kmlgzo nkpj -> mouse draws around cave
Now, decrypt the following text: fimo omkye zjkm xkmojz | bird draws near garden |
f7a5cacd | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
qgyu dktsewp kqjlw lgzzkaw -> bird watches above village
biwwf mjzzjdp skptzw -> queen follows castle
biwwf ugpsjlwyp gfpguw rkzksw -> queen discovers inside palace
ykqqgt uykdp gf zgqykyh -> rabbit draws in library
dgnkyu dktsewp ... | hatter sees in village |
70851afe | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
:)*"[ = {`??
'@+^) = '@^)
{[*"? = @`^@
Now, determine the result for: ":-`@ | @" |
c3c3e734 | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
31.48 m becomes 38.93
24.26 m becomes 30.00
25.5 m becomes 31.54
Now, convert the following measurement: 23.36 m | 28.89 |
a0f67d8f | In Alice's Wonderland, a secret unit conversion is applied to measurements. For example:
49.21 m becomes 93.01
48.95 m becomes 92.52
33.05 m becomes 62.47
15.69 m becomes 29.66
14.27 m becomes 26.97
Now, convert the following measurement: 20.64 m | 39.01 |
78dc9bcb | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
zvrrtg gtvju rzt urgvfct nwggkg -> hatter reads the strange mirror
iyttf sgwrtu akgtur -> queen writes forest
rtvqztg akppksu yfjtg qvurpt -> teacher follows under castle
rygrpt svrqztu hkke -> turtle watches book
Now, decrypt the ... | princess found the wise forest |
7826240a | In Alice's Wonderland, numbers are secretly converted into a different numeral system. Some examples are given below:
54 -> LIV
39 -> XXXIX
76 -> LXXVI
90 -> XC
Now, write the number 38 in the Wonderland numeral system. | XXXVIII |
d546fd90 | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
^^\?? = %%
?<+:` = }?}^
:?+?^ = }^?%
Now, determine the result for: ]?\:< | \]@ |
ca85809b | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
%&\[% = &#`#
![>`@ = `&`
`^>%# = ]]
Now, determine the result for: &&\%[ | %!^& |
4bc2ac16 | In Alice's Wonderland, secret encryption rules are used on text. Here are some examples:
ndybuett dexot lce teudel sxn -> princess reads the secret map
wbygcl rdylet nqppve -> knight writes puzzle
uxl fiqbo uxtlve -> cat found castle
lce cyooeb wbygcl rxlucet -> the hidden knight watches
Now, decrypt the following text... | rabbit dreams the ancient map |
945c151e | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
42*54 = 9701
18*78 = 6407
79*01 = 969
02*33 = 956
Now, determine the result for: 38+08 | 461 |
412a209f | In Alice's Wonderland, a secret set of transformation rules is applied to equations. Below are a few examples:
37<57 = <2
49#13 = 521
73#68 = 321
04'79 = 9783
Now, determine the result for: 27'23 | 3032 |
fecfb467 | In Alice's Wonderland, a secret bit manipulation rule transforms 8-bit binary numbers. The transformation involves operations like bit shifts, rotations, XOR, AND, OR, NOT, and possibly majority or choice functions.
Here are some examples of input -> output:
10011111 -> 00011001
11011100 -> 01001101
00000011 -> 010100... | 00101100 |
4ac135be | In Alice's Wonderland, the gravitational constant has been secretly changed. Here are some example observations:
For t = 2.56s, distance = 47.97 m
For t = 3.16s, distance = 73.1 m
For t = 2.46s, distance = 44.3 m
For t = 3.92s, distance = 112.49 m
For t = 2.53s, distance = 46.86 m
Now, determine the falling distance fo... | 26.15 |
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