total task's number: 49
correct solved tasks: 20
evaluation failed tasks: 0
accuracy (not consider evaluation failed ones): 0.40816326530612246
accuracy (full): 0.40816326530612246


-----------------------------------

2.14°  ;  2.14  ${\circ}$ ; psolve average [0.8187529712444702, 0.8173008285512652, 0.8085783924510522] 
75.99 Joules  ;  -75  $\mathrm{~J}$ ; psolve average [0.8025700560336516, 0.8118775336010433, 0.8016038927769529] 
-0.16666666666666669 J/mol  ;  -0.38  $\mathrm{~J} \mathrm{~mol}^{-1}$ ; psolve average [0.7941215374974578, 0.7930264946501427] 
234.299837119694 K  ;  234.4  $ \mathrm{~K}$  ; psolve average [0.7685052515401423, 0.8002480196447883, 0.7989920408199834] 
110.53497304528521 K  ;  5.5  $10^3 \mathrm{~K}$ ; psolve average [0.8262238188710321, 0.8204264312526907] 
The change in Gibbs energy of the ethanol is 0.0 kJ.  ;  12  $\mathrm{~kJ}$ ; psolve average [0.7957861831370829, 0.8077640477546626] 
3.5448 eV  ;  3.54  $\mathrm{eV}$ ; psolve average [0.868599204419202, 0.8235928028859818] 
1442264.0673405293 g/mol  ;  3.61  $10^5 \mathrm{~g} \mathrm{~mol}^{-1}$ ; psolve average [0.7737563398810653, 0.8022777392719638, 0.823737196319089] 
1.8752e+08 m/s  ;  1.88  $10^8 \mathrm{~m} \mathrm{~s}^{-1}$ ; psolve average [0.8584114486997908, 0.8633842597507865] 
48.074 kJ/mol  ;  62.2  $\mathrm{~kJ} \mathrm{~mol}^{-1}$ ; psolve average [0.8062711045504916] 
The calculation was not completed due to a failure in the integration subtask.  ;  0.020   ; psolve average [0.79958595063075, 0.801259705765338, 0.820654518789496] 
-319392.23 kJ/mol  ;  -1270  $\mathrm{~kJ} \mathrm{~mol}^{-1}$ ; psolve average [0.7924274570004695, 0.798663566668051, 0.8067927105521809] 
The final calculation was not completed.  ;  0.5   ; psolve average [0.815714542918459, 0.8136697576512981, 0.7973597023755121] 
The theoretical density of diamond is: 7.6551466717197085 g/cm^3  ;  7.654  $\mathrm{~g} \mathrm{~cm}^{-3}$ ; psolve average [0.787687888908859, 0.7803673428998162, 0.7731358785193448] 
1117979.3234837828 m  ;  0.87  $\mathrm{~m}$ ; psolve average [0.8268263174123337, 0.7813932529954913] 
-0.0 kJ/mol  ;  1.07  $10^3 \mathrm{~kJ} \mathrm{~mol}^{-1}$ ; psolve average [0.815666019761045, 0.7914966400604088] 
The final answer couldn't be obtained as subtask 3 computation (using Van der Waals equation) failed.  ;  140  $\mathrm{~atm}$ ; psolve average [0.9016096373595152, 0.8568849961889052, 0.857402872111258] 
The difference in local magnetic field is 11.4 µT  ;  11  $\mu \mathrm{T}$ ; psolve average [0.8016704887059906, 0.8122974845454878] 
0.4834483378656841  ;  0.8   ; psolve average [0.8516810847534751, 0.781364430051439, 0.8287674357902332] 
0.016666666666666666 seconds  ;  1.7  $10^{-2} \mathrm{~s}$ ; psolve average [0.770108960245146, 0.7234797354620311] 
0.03 Pa  ;  0.195  $\mathrm{Pa}$ ; psolve average [0.7776264293340094, 0.7998832156423181, 0.7894861634575062] 
-3.0627 kJ/mol  ;  -11.2  $\mathrm{~kJ}   \mathrm{~mol}^{-1}$ ; psolve average [0.8265617205214556, 0.8276689303434414, 0.7824133764840123] 
The radius of the cavity is 0.21462509515396017 nm.  ;  0.69  $\mathrm{~nm}$ ; psolve average [0.7825834880072122, 0.8335555030873385, 0.826758210809011] 
7273895.216242272 m/s  ;  7.27  $10^6 \mathrm{~m} \mathrm{~s}^{-1}$ ; psolve average [0.8642051173314723, 0.8191796021327421] 
7.2739e+18 pm/s  ;  7.27  $10^6 \mathrm{~m} \mathrm{~s}^{-1}$ ; psolve average [0.8572583121866958, 0.8482320501197912] 
The magnitude of the partial charges is 0.12324543937313616e.  ;  0.123   ; psolve average [0.8200220964401709, 0.83229074499125, 0.7997475261270225] 
The rotational partition function of the NOF molecule at 25°C is 1.4569e-02 x 10^3.  ;  7.97 $10^3$ ; psolve average [0.8500830009123096, 0.7945867117535563] 
-16.58 J  ;  -17  $\mathrm{~J}$  ; psolve average [0.8673557280723543, 0.847393451841154, 0.8083252335366747] 
-0.76 V  ;  -1.46  $\mathrm{V}$ ; psolve average [0.7881469148292283, 0.8035418388625479] 
The mass of the solid will decrease by 15.8468 mg in a period of 1.00 h.  ;  16  $\mathrm{mg}$ ; psolve average [0.7790873853671062, 0.7648202803668663] 
5.1679e+01 pm  ;  52  $\mathrm{pm}$ ; psolve average [0.8742178950461978, 0.8019362272542461, 0.8204793678439293] 
The resonance frequency of the electron spin is 2.8000e+13 Hz  ;  2.8  $10^{13} \mathrm{~Hz}$ ; psolve average [0.8233384681420471, 0.8154239477971212] 
39.69405000000001 mJ  ;  48  $\mathrm{~mJ}$ ; psolve average [0.7927745394010333, 0.8324946889426387, 0.8424503268577234] 
39.69405000000001 mJ  ;  48  $\mathrm{~mJ}$ ; psolve average [0.8471551756262281] 
4.21 * 10^3  ;  4.4  $10^3$ ; psolve average [0.807760611261659, 0.8018188657017933, 0.8103929279749496] 
14.059393762786943 eV  ;  14  $\mathrm{eV}$ ; psolve average [0.8283387001529404, 0.8588471105127553, 0.8275859527036705] 
540.00 s  ;  537  $\mathrm{s}$ ; psolve average [0.8031633894803223, 0.7788237643211168] 
Not completed  ;  4500 $\mathrm{~K}$ ; psolve average [0.802799087787141, 0.7954343755398888, 0.8026382813014376] 
-44.44 kJ/mol  ;  -994.3  $\mathrm{~kJ} \mathrm{~mol}^{-1}$ ; psolve average [0.7803518011785928, 0.8010970458827097, 0.8087463994891815] 
-569.210004474273 kJ/mol  ;  -501 $\mathrm{~kJ} \mathrm{~mol}^{-1}$ ; psolve average [0.8172182143075225, 0.7862332055782079, 0.8067463426733038] 
562611.1111 g/mol  ;  85  $\mathrm{~g} \mathrm{~mol}^{-1}$ ; psolve average [0.7726219904408632, 0.7838914614905151, 0.8108417062843484] 
206.2109867926688 J mol^-1 K^-1  ;  199.4  $\mathrm{~J} \mathrm{~mol}^{-1} \mathrm{~K}^{-1}$ ; psolve average [0.7460985748532213, 0.7963562766038884] 
125663.70614359174 T  ;  5.9  $10^{-4} \mathrm{~T}$ ; psolve average [0.7996636297336694, 0.7709827241123602] 
0.4198412698412698 pm  ;  0.42  $\mathrm{pm}$ ; psolve average [0.8295686015449766, 0.8382231173401514, 0.8648500816169674] 
-5.9244001 kJ mol^-1  ;  -6.42  $\mathrm{~kJ} \mathrm{~mol}^{-1}$ ; psolve average [0.7916780391271986, 0.809538167023339, 0.8247856975366936] 
-14.56 K  ;  272.8  $\mathrm{K}$ ; psolve average [0.8112859933603124, 0.7824715507316583] 
524.4560970112543 K  ;  524  $ \mathrm{~K}$ ; psolve average [0.8535673822110289, 0.8196660756193367, 0.8382345739477377] 
8.68 cm^3  ;  8.7  $\mathrm{~cm}^3$ ; psolve average [0.8083832734058841, 0.859393048080716] 
The predicted wavelength of the first excitation of a Buckminsterfullerene molecule is approximately 1.616 µm.  ;  1.6  $\mu \mathrm{m}$ ; psolve average [0.7747318485049975, 0.8236425145776667, 0.8193509059957814] 

Correct---------------------------------

2.14°  ;  2.14  ${\circ}$ ; psolve average [0.8187529712444702, 0.8173008285512652, 0.8085783924510522] 
234.299837119694 K  ;  234.4  $ \mathrm{~K}$  ; psolve average [0.7685052515401423, 0.8002480196447883, 0.7989920408199834] 
3.5448 eV  ;  3.54  $\mathrm{eV}$ ; psolve average [0.868599204419202, 0.8235928028859818] 
1.8752e+08 m/s  ;  1.88  $10^8 \mathrm{~m} \mathrm{~s}^{-1}$ ; psolve average [0.8584114486997908, 0.8633842597507865] 
The theoretical density of diamond is: 7.6551466717197085 g/cm^3  ;  7.654  $\mathrm{~g} \mathrm{~cm}^{-3}$ ; psolve average [0.787687888908859, 0.7803673428998162, 0.7731358785193448] 
The difference in local magnetic field is 11.4 µT  ;  11  $\mu \mathrm{T}$ ; psolve average [0.8016704887059906, 0.8122974845454878] 
7.2739e+18 pm/s  ;  7.27  $10^6 \mathrm{~m} \mathrm{~s}^{-1}$ ; psolve average [0.8572583121866958, 0.8482320501197912] 
The magnitude of the partial charges is 0.12324543937313616e.  ;  0.123   ; psolve average [0.8200220964401709, 0.83229074499125, 0.7997475261270225] 
-16.58 J  ;  -17  $\mathrm{~J}$  ; psolve average [0.8673557280723543, 0.847393451841154, 0.8083252335366747] 
The mass of the solid will decrease by 15.8468 mg in a period of 1.00 h.  ;  16  $\mathrm{mg}$ ; psolve average [0.7790873853671062, 0.7648202803668663] 
The resonance frequency of the electron spin is 2.8000e+13 Hz  ;  2.8  $10^{13} \mathrm{~Hz}$ ; psolve average [0.8233384681420471, 0.8154239477971212] 
4.21 * 10^3  ;  4.4  $10^3$ ; psolve average [0.807760611261659, 0.8018188657017933, 0.8103929279749496] 
14.059393762786943 eV  ;  14  $\mathrm{eV}$ ; psolve average [0.8283387001529404, 0.8588471105127553, 0.8275859527036705] 
540.00 s  ;  537  $\mathrm{s}$ ; psolve average [0.8031633894803223, 0.7788237643211168] 
206.2109867926688 J mol^-1 K^-1  ;  199.4  $\mathrm{~J} \mathrm{~mol}^{-1} \mathrm{~K}^{-1}$ ; psolve average [0.7460985748532213, 0.7963562766038884] 
0.4198412698412698 pm  ;  0.42  $\mathrm{pm}$ ; psolve average [0.8295686015449766, 0.8382231173401514, 0.8648500816169674] 
-5.9244001 kJ mol^-1  ;  -6.42  $\mathrm{~kJ} \mathrm{~mol}^{-1}$ ; psolve average [0.7916780391271986, 0.809538167023339, 0.8247856975366936] 
524.4560970112543 K  ;  524  $ \mathrm{~K}$ ; psolve average [0.8535673822110289, 0.8196660756193367, 0.8382345739477377] 
8.68 cm^3  ;  8.7  $\mathrm{~cm}^3$ ; psolve average [0.8083832734058841, 0.859393048080716] 
The predicted wavelength of the first excitation of a Buckminsterfullerene molecule is approximately 1.616 µm.  ;  1.6  $\mu \mathrm{m}$ ; psolve average [0.7747318485049975, 0.8236425145776667, 0.8193509059957814] 

-----------------------------------