neutron: be used in fission

from Quasimodo
0.2 0.4 0.6 0.8 Plausible Typical Remarkable Salient

Related concepts

Parents particle
Weight: 0.62
, electron
Weight: 0.56
, alpha particle
Weight: 0.55
, thing
Weight: 0.53
Siblings proton
Weight: 0.37
, photon
Weight: 0.37
, beta particle
Weight: 0.36
, neutrino
Weight: 0.35
, molecule
Weight: 0.34

Related properties

Property Similarity
be used in fission 1.00
cause fission 0.96
be used in nuclear fission 0.96
be released during fission 0.94
be released in fission reaction 0.91
be used in nuclear reactions 0.79
make nonradioactive elements radioactive 0.79
be produced in nuclear reactor 0.78
be effective for nuclear reactions 0.76

Priors about this statement

Cues

0.2 0.4 0.6 0.8 Joint Necessity Sufficiency Implication Entailment Contradiction Entropy

Evidence

0.2 0.4 0.6 0.8 Plausible Typical Remarkable Salient

Clauses

Salient implies Plausible

0.25
Rule weight: 0.28
Evidence weight: 0.89
Similarity weight: 1.00
Evidence: 0.65
Plausible(neutron, be used in fission)
Evidence: 0.32
¬ Salient(neutron, be used in fission)

Similarity expansion

0.70
Rule weight: 0.85
Evidence weight: 0.89
Similarity weight: 0.91
Evidence: 0.65
Plausible(neutron, be used in fission)
Evidence: 0.30
¬ Plausible(neutron, be released in fission reaction)
0.64
Rule weight: 0.85
Evidence weight: 0.94
Similarity weight: 0.79
Evidence: 0.15
Typical(neutron, be used in fission)
Evidence: 0.07
¬ Typical(neutron, be used in nuclear reactions)
0.63
Rule weight: 0.85
Evidence weight: 0.94
Similarity weight: 0.79
Evidence: 0.65
Plausible(neutron, be used in fission)
Evidence: 0.18
¬ Plausible(neutron, be used in nuclear reactions)
0.61
Rule weight: 0.85
Evidence weight: 0.78
Similarity weight: 0.91
Evidence: 0.32
Salient(neutron, be used in fission)
Evidence: 0.33
¬ Salient(neutron, be released in fission reaction)
0.60
Rule weight: 0.85
Evidence weight: 0.77
Similarity weight: 0.91
Evidence: 0.60
Remarkable(neutron, be used in fission)
Evidence: 0.57
¬ Remarkable(neutron, be released in fission reaction)
0.59
Rule weight: 0.85
Evidence weight: 0.76
Similarity weight: 0.91
Evidence: 0.15
Typical(neutron, be used in fission)
Evidence: 0.28
¬ Typical(neutron, be released in fission reaction)
0.59
Rule weight: 0.85
Evidence weight: 0.87
Similarity weight: 0.79
Evidence: 0.65
Plausible(neutron, be used in fission)
Evidence: 0.36
¬ Plausible(neutron, make nonradioactive elements radioactive)
0.59
Rule weight: 0.85
Evidence weight: 0.89
Similarity weight: 0.78
Evidence: 0.60
Remarkable(neutron, be used in fission)
Evidence: 0.29
¬ Remarkable(neutron, be produced in nuclear reactor)
0.58
Rule weight: 0.85
Evidence weight: 0.90
Similarity weight: 0.76
Evidence: 0.65
Plausible(neutron, be used in fission)
Evidence: 0.29
¬ Plausible(neutron, be effective for nuclear reactions)
0.56
Rule weight: 0.85
Evidence weight: 0.83
Similarity weight: 0.79
Evidence: 0.15
Typical(neutron, be used in fission)
Evidence: 0.20
¬ Typical(neutron, make nonradioactive elements radioactive)
0.53
Rule weight: 0.85
Evidence weight: 0.83
Similarity weight: 0.76
Evidence: 0.60
Remarkable(neutron, be used in fission)
Evidence: 0.43
¬ Remarkable(neutron, be effective for nuclear reactions)
0.53
Rule weight: 0.85
Evidence weight: 0.80
Similarity weight: 0.78
Evidence: 0.32
Salient(neutron, be used in fission)
Evidence: 0.30
¬ Salient(neutron, be produced in nuclear reactor)
0.53
Rule weight: 0.85
Evidence weight: 0.78
Similarity weight: 0.79
Evidence: 0.32
Salient(neutron, be used in fission)
Evidence: 0.33
¬ Salient(neutron, be used in nuclear reactions)
0.52
Rule weight: 0.85
Evidence weight: 0.81
Similarity weight: 0.76
Evidence: 0.32
Salient(neutron, be used in fission)
Evidence: 0.29
¬ Salient(neutron, be effective for nuclear reactions)
0.48
Rule weight: 0.85
Evidence weight: 0.73
Similarity weight: 0.78
Evidence: 0.65
Plausible(neutron, be used in fission)
Evidence: 0.76
¬ Plausible(neutron, be produced in nuclear reactor)
0.46
Rule weight: 0.85
Evidence weight: 0.72
Similarity weight: 0.76
Evidence: 0.15
Typical(neutron, be used in fission)
Evidence: 0.33
¬ Typical(neutron, be effective for nuclear reactions)
0.46
Rule weight: 0.85
Evidence weight: 0.67
Similarity weight: 0.79
Evidence: 0.60
Remarkable(neutron, be used in fission)
Evidence: 0.82
¬ Remarkable(neutron, be used in nuclear reactions)
0.44
Rule weight: 0.85
Evidence weight: 0.66
Similarity weight: 0.79
Evidence: 0.60
Remarkable(neutron, be used in fission)
Evidence: 0.85
¬ Remarkable(neutron, make nonradioactive elements radioactive)
0.44
Rule weight: 0.85
Evidence weight: 0.66
Similarity weight: 0.79
Evidence: 0.32
Salient(neutron, be used in fission)
Evidence: 0.51
¬ Salient(neutron, make nonradioactive elements radioactive)
0.41
Rule weight: 0.85
Evidence weight: 0.61
Similarity weight: 0.78
Evidence: 0.15
Typical(neutron, be used in fission)
Evidence: 0.46
¬ Typical(neutron, be produced in nuclear reactor)

Typical and Remarkable implies Salient

0.13
Rule weight: 0.14
Evidence weight: 0.94
Similarity weight: 1.00
Evidence: 0.32
Salient(neutron, be used in fission)
Evidence: 0.15
¬ Typical(neutron, be used in fission)
Evidence: 0.60
¬ Remarkable(neutron, be used in fission)

Typical implies Plausible

0.45
Rule weight: 0.48
Evidence weight: 0.95
Similarity weight: 1.00
Evidence: 0.65
Plausible(neutron, be used in fission)
Evidence: 0.15
¬ Typical(neutron, be used in fission)