Comparación de perfiles de Instagram de Phil Cook y Professor Brian Cox. Seguidores, interacción, actividad y rendimiento comparados.
Resumen de Perfiles
Account size, health metrics, and growth indicators
Account Health
@chemteacherphil
85
Excellent
Account Health
@profbriancox
80
Excellent
Phil Cook
@chemteacherphil
Just your friendly neighborhood chemistry teacher. @chemteacherphil on TikTok
516.8K
Seguidores
43%
96
Siguiendo
209
Publicaciones
61%
Healthy ratio
Professor Brian Cox
@profbriancox
Particle physics, cosmology, biology, music and increasingly interested in what it all means!
688.8K
Seguidores
57%
26
Siguiendo
136
Publicaciones
39%
Healthy ratio
Métricas Clave Cara a Cara
Métricas Avanzadas
Nivel de Cuenta
516.8K followers
Range: 500K-1M
@chemteacherphil
688.8K followers
Range: 500K-1M
@profbriancox
Calidad de Engagement
@chemteacherphil
18.15%
Benchmark: 0.5-1%
@profbriancox
2.35%
Benchmark: 0.5-1%
Ratio Siguiendo/Seguidores
@chemteacherphil
1:5.4K
Very influential
@profbriancox
1:26.5K
Very influential
Comment-to-Like Ratio
Higher = more thoughtful engagement
Virality Potential
Engagement per 1K followers (0-100 scale)
Densidad de Contenido(posts per 1K followers)
@chemteacherphil
0.40
Moderate@profbriancox
0.20
ModerateJolygram Intelligence Metrics
Advanced analytics combining reach, engagement, content quality, and growth patterns
Growth Velocity Index
Recent growth momentum
Audience Quality Score
Quality of follower base
Content Performance Index
Engagement per follower
Overall Influence Index
Combined influence potential
Intelligence Metrics provide deeper insights into creator effectiveness, audience quality, and growth momentum beyond basic follower counts. These metrics help identify authentic influence and sustainable growth patterns.
Publicaciones Top
I built a simple setup to demonstrate how Li-Fi: light-based wireless communication, can be used to transmit sound using visible light. An audio signal from my iPad is amplified and sent to a light-emitting diode (LED), converting the sound into rapid fluctuations in light intensity. When the flickering light shines on a solar panel, the panel converts the light back into an electrical signal that can drive a speaker, reproducing the original sound. Because light waves can carry high-frequency data, this same principle underlies Li-Fi systems, which use LEDs or laser diodes to transmit digital information to photodetectors at extremely high speeds, providing a potential alternative to traditional radio based Wi-Fi networks for secure, high bandwidth communication. #chemteacherphil #STEM
chemteacherphil has 570.7K more likes on their top post
Estrategia de Hashtags
12
Con Hashtags
0
Sin Hashtags
3
Con Hashtags
9
Sin Hashtags
@chemteacherphil muestra mayor impacto de hashtags
Tendencias de Engagement
+960.2%
Cambio en engagement
Likes
Comentarios
-57.3%
Cambio en engagement
Likes
Comentarios
@chemteacherphil muestra mejor momentum reciente
Ritmo de Publicación
@chemteacherphil
@profbriancox
La puntuación de consistencia refleja la regularidad de publicación. Más alta = horario más confiable para la audiencia.
Veredicto Experto
Veredicto General:
@chemteacherphil entrega mayor engagement en relación al tamaño de audiencia.
Seguidores
@profbriancox domina en alcance y volumen de seguidores.
Tasa de Engagement
@chemteacherphil entrega mayor engagement en relación al tamaño de audiencia.
Resumen Rápido
Data updated based on recent public posts.
Comparaciones Populares
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Preguntas Frecuentes: @chemteacherphil vs @profbriancox
Preguntas específicas sobre esta comparación cara a cara
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