alpha radiation: be used in smoke detectors

from Quasimodo
0.2 0.4 0.6 0.8 Plausible Typical Remarkable Salient

Related concepts

Parents radiation
Weight: 0.73
Siblings gamma radiation
Weight: 0.41
, beta radiation
Weight: 0.36
, beta particle
Weight: 0.35
, muon
Weight: 0.30
, fallout
Weight: 0.30

Related properties

Property Similarity
be used in smoke detectors 1.00
be best for smoke detectors 0.98
be used in smoke alarms 0.86
be more dangerous than infrared radiation 0.79
be used detect 0.78
be more damaging than infrared radiation 0.77
have higher ionizing power than gamma particles 0.76
be called ionizing radiation 0.76
be used detecting 0.76
is emitted 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

Remarkability exclusitivity between siblings

0.06
Rule weight: 0.13
Evidence weight: 0.61
Similarity weight: 0.76
Evidence: 0.79
¬ Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.50
¬ Remarkable(beta particle, be called ionizing radiation)
0.03
Rule weight: 0.13
Evidence weight: 0.32
Similarity weight: 0.76
Evidence: 0.79
¬ Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.86
¬ Remarkable(beta particle, have higher ionizing power than gamma particles)
0.02
Rule weight: 0.13
Evidence weight: 0.22
Similarity weight: 0.76
Evidence: 0.79
¬ Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.99
¬ Remarkable(beta particle, is emitted)

Remarkability from sibling implausibility

0.46
Rule weight: 0.60
Evidence weight: 1.00
Similarity weight: 0.76
Evidence: 0.15
Plausible(alpha radiation, be used in smoke detectors)
Evidence: 0.99
Remarkable(beta particle, is emitted)
Evidence: 0.15
¬ Plausible(beta particle, is emitted)
0.43
Rule weight: 0.60
Evidence weight: 0.94
Similarity weight: 0.76
Evidence: 0.15
Plausible(alpha radiation, be used in smoke detectors)
Evidence: 0.86
Remarkable(beta particle, have higher ionizing power than gamma particles)
Evidence: 0.49
¬ Plausible(beta particle, have higher ionizing power than gamma particles)
0.36
Rule weight: 0.60
Evidence weight: 0.80
Similarity weight: 0.76
Evidence: 0.15
Plausible(alpha radiation, be used in smoke detectors)
Evidence: 0.50
Remarkable(beta particle, be called ionizing radiation)
Evidence: 0.48
¬ Plausible(beta particle, be called ionizing radiation)

Salient implies Plausible

0.21
Rule weight: 0.28
Evidence weight: 0.75
Similarity weight: 1.00
Evidence: 0.15
Plausible(alpha radiation, be used in smoke detectors)
Evidence: 0.30
¬ Salient(alpha radiation, be used in smoke detectors)

Similarity expansion

0.78
Rule weight: 0.85
Evidence weight: 0.94
Similarity weight: 0.98
Evidence: 0.79
Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.29
¬ Remarkable(alpha radiation, be best for smoke detectors)
0.69
Rule weight: 0.85
Evidence weight: 0.94
Similarity weight: 0.86
Evidence: 0.05
Typical(alpha radiation, be used in smoke detectors)
Evidence: 0.07
¬ Typical(alpha radiation, be used in smoke alarms)
0.66
Rule weight: 0.85
Evidence weight: 0.90
Similarity weight: 0.86
Evidence: 0.79
Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.48
¬ Remarkable(alpha radiation, be used in smoke alarms)
0.62
Rule weight: 0.85
Evidence weight: 0.74
Similarity weight: 0.98
Evidence: 0.30
Salient(alpha radiation, be used in smoke detectors)
Evidence: 0.37
¬ Salient(alpha radiation, be best for smoke detectors)
0.61
Rule weight: 0.85
Evidence weight: 0.84
Similarity weight: 0.86
Evidence: 0.30
Salient(alpha radiation, be used in smoke detectors)
Evidence: 0.23
¬ Salient(alpha radiation, be used in smoke alarms)
0.46
Rule weight: 0.85
Evidence weight: 0.56
Similarity weight: 0.98
Evidence: 0.15
Plausible(alpha radiation, be used in smoke detectors)
Evidence: 0.52
¬ Plausible(alpha radiation, be best for smoke detectors)
0.43
Rule weight: 0.85
Evidence weight: 0.58
Similarity weight: 0.86
Evidence: 0.15
Plausible(alpha radiation, be used in smoke detectors)
Evidence: 0.50
¬ Plausible(alpha radiation, be used in smoke alarms)
0.31
Rule weight: 0.85
Evidence weight: 0.37
Similarity weight: 0.98
Evidence: 0.05
Typical(alpha radiation, be used in smoke detectors)
Evidence: 0.66
¬ Typical(alpha radiation, be best for smoke detectors)

Typical and Remarkable implies Salient

0.14
Rule weight: 0.14
Evidence weight: 0.97
Similarity weight: 1.00
Evidence: 0.30
Salient(alpha radiation, be used in smoke detectors)
Evidence: 0.05
¬ Typical(alpha radiation, be used in smoke detectors)
Evidence: 0.79
¬ Remarkable(alpha radiation, be used in smoke detectors)

Typical implies Plausible

0.46
Rule weight: 0.48
Evidence weight: 0.96
Similarity weight: 1.00
Evidence: 0.15
Plausible(alpha radiation, be used in smoke detectors)
Evidence: 0.05
¬ Typical(alpha radiation, be used in smoke detectors)

Typicality and Rermarkability incompatibility between siblings

0.10
Rule weight: 0.14
Evidence weight: 1.00
Similarity weight: 0.76
Evidence: 0.79
¬ Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.00
¬ Typical(beta particle, is emitted)
0.07
Rule weight: 0.14
Evidence weight: 0.71
Similarity weight: 0.76
Evidence: 0.79
¬ Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.37
¬ Typical(beta particle, have higher ionizing power than gamma particles)
0.06
Rule weight: 0.14
Evidence weight: 0.56
Similarity weight: 0.76
Evidence: 0.79
¬ Remarkable(alpha radiation, be used in smoke detectors)
Evidence: 0.55
¬ Typical(beta particle, be called ionizing radiation)