Side-by-side Instagram profile comparison of Dr. Jane Goodall vs Science Is Fun By Tomas Rosko. Followers, engagement, activity, and performance compared.
Profile Overview
Account size, health metrics, and growth indicators
Account Health
@janegoodallinst
100
Excellent
Account Health
@sciencefunn
100
Excellent
Dr. Jane Goodall
@janegoodallinst
Run by the Jane Goodall Institute Inspiring hope & transforming it into action 💫 Fulfilling a vision of science-based, community-led conservation 🌱
1.9M
Followers
41%
418
Following
2.9K
Posts
74%
Healthy ratio
Science Is Fun By Tomas Rosko
@sciencefunn
Welcome to a place, where science is cool & fun.🤓 Check out our cool science gadgets store:
2.8M
Followers
59%
327
Following
1K
Posts
26%
Healthy ratio
Key Metrics Head-to-Head
Advanced Metrics
Account Tier
1.9M followers
Range: 1M-10M
@janegoodallinst
2.8M followers
Range: 1M-10M
@sciencefunn
Engagement Quality
@janegoodallinst
4.06%
Benchmark: 0.2-0.5%
@sciencefunn
0.83%
Benchmark: 0.2-0.5%
Following/Followers Ratio
@janegoodallinst
1:4.6K
Very influential
@sciencefunn
1:8.5K
Very influential
Comment-to-Like Ratio
Higher = more thoughtful engagement
Virality Potential
Engagement per 1K followers (0-100 scale)
Content Density(posts per 1K followers)
@janegoodallinst
1.54
Active@sciencefunn
0.38
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.
Top Posts
With great sadness, the Jane Goodall Institute confirmed this morning the passing of the organization’s founder, Dr. Jane Goodall, age 91 who died peacefully in her sleep while in Los Angeles, CA for her speaking tour in the United States. Dr. Goodall’s life and work not only made an indelible mark on our understanding of chimpanzees and other species, but also of humankind and the environments we all share. She inspired curiosity, hope and compassion in countless people around the world, and paved the way for many others — particularly young people who gave her hope for the future. In 1960 Dr. Goodall established the longest running wild chimpanzee study in Gombe National Park, Tanzania which continues to this day. She pioneered and sustained the Jane Goodall Institute’s community-centered conservation initiatives across the chimpanzee range for over four decades. Her legacy includes the creation of JGI’s international environmental and humanitarian youth program Roots & Shoots, which is actively driving change in 75 countries and counting around the world. The Jane Goodall Institute is incredibly grateful to all our supporters, partners, and friends, especially during this difficult time. To add a personal remembrance of Dr. Goodall and continue her legacy for future generations, please visit JaneGoodall.org/RememberingJane #ThankYouJane #RememberingJane 💚 Photo credit: Marko Zlousic
LEGO isn’t just a toy; it’s a masterclass in high-precision engineering and materials science. Here are some of the coolest science-based facts about those iconic plastic bricks. 1. The Physics of “Clutch Power” The reason LEGO bricks snap together and stay together is due to a mechanical property called clutch power. This is achieved through interference fits. The studs on top are slightly larger than the space between the tubes underneath. When you press them together, the plastic slightly deforms and then “hugs” the stud, creating friction. The tolerance for this fit is incredibly tight: 0.002 millimeters. If the mold varies by even a hair’s breadth, the bricks won’t click properly. 2. They Are Virtually Indestructible A study published in the journal Ecological Engineering estimated that a single LEGO brick could survive in the ocean for anywhere from 100 to 1,300 years before fully breaking down. This is due to the stability of ABS (Acrylonitrile Butadiene Styrene), a robust thermoplastic that resists chemical erosion and impact. 3. The Tower of Compression How many bricks can you stack before the bottom one gets crushed? The average 2x4 LEGO brick can withstand a force of about 4,240 Newtons (roughly 950 pounds). Mathematically, you could stack approximately 375,000 bricks on top of one another before the bottom brick structural integrity fails. That tower would be about 3.5 kilometers (2.17 miles) high—way taller than Mount Olympus! Are you looking for a cool science present? Check out the last slides (and for more in our bio). We share wholesome science content. Feel free to join us 👉 @sciencefunn for more.
janegoodallinst has 791.3K more likes on their top post
Hashtag Strategy
11
With Hashtags
1
Without Hashtags
0
With Hashtags
12
Without Hashtags
@janegoodallinst has stronger hashtag impact
Engagement Trends
-97.9%
Engagement shift
Likes
Comments
-95.2%
Engagement shift
Likes
Comments
@sciencefunn shows better recent momentum
Posting Rhythm
@janegoodallinst
@sciencefunn
Consistency score reflects regularity of posting. Higher = more reliable schedule for audience.
Expert Verdict
Overall Verdict:
@janegoodallinst delivers higher engagement relative to audience size.
Followers
@sciencefunn dominates in reach and follower volume.
Engagement Rate
@janegoodallinst delivers higher engagement relative to audience size.
Quick Summary
Data updated based on recent public posts.
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