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Analysis
The total number of IG users following @username on last update.
The total number of IG users that @username was following on last update.
Indicated the number of follower @username has for every user he/she follows.
Indicates how this user uses his/her Instagram account.
The number of photos in @username’s feed. It might not be the same as the total amount of photos posted over time as Instagram offers the option to delete a photo at any time.
The date when @username last posted a photo to his/her feed.
How often does @username usually post a new photo/video.
The average amount of likes a photo by @username gets.
Two users might have an average of 100 likes on their photos. One got 100 likes on every single one of his photos, while the other got 20 in most of them and 2000 in a couple. The first user will have a high consistency while the second one will have a low consistency.
A good consistency is always a good sign.
The average percentage of IG users who follow @username who like his/her photos.
A good engagement rate is a sign of a healthy and responsive community.
The average amount of comments a photo by @username gets.
The average percentage of IG users who follow @username who comment on his/her photos.
Two users might have an average of 10 comments on their photos. One got 10 comments on every single one of his photos, while the other got 2 in most of them and 200 in a couple. The first user will have a high consistency while the second one will have a low consistency.
A low comment consistency can indicate that the average amount of comments might have been affected artificially due to a promotion.
The average percentage of comments a photo gets in relationship to the likes.
popularity
91,570
2,242
micro influencer
@sciencephotolibrary is a micro influencer with 91,570 followers.
content
1,451
nan% vs. nan%
762 chars
27
Oct 12
+ daily
@sciencephotolibrary is incredibly active, publishing several times a day, with a poor use of captions and hashtags
community engagement
1,297 / 1.42%
68%
6 / 0.00007%
32%
@sciencephotolibrary's community is poorly engaged but very consistent.
not good nor bad
very low
low
good
high
very high
History
30 days
90 days
all
date
followers
following
uploads
eng. rate
avg. likes
avg. comments
Oct 12
1,091
91,570
2,242
1,451
1.42%
1,297
6
Sep 26
94
90,479
2,242
1,424
1.32%
1,196
6
Sep 24
88
90,385
2,240
1,421
1.44%
1,300
8
Sep 23
277
90,297
2,240
1,420
1.37%
1,237
8
Sep 20
72
90,020
2,240
1,415
1.86%
1,670
12
Sep 19
65
89,948
2,241
1,413
1.93%
1,739
13
Sep 18
96
89,883
2,241
1,411
2.22%
1,999
12
Sep 17
113
89,787
2,243
1,410
2.4%
2,158
14
Sep 16
59
89,674
2,243
1,410
2.36%
2,117
14
Sep 15
508
89,615
2,242
1,409
2.38%
2,134
13
Sep 12
222
89,107
2,242
1,406
2.22%
1,974
13
Sep 11
243
88,885
2,242
1,404
1.96%
1,739
12
Sep 10
181
88,642
2,244
1,404
1.84%
1,631
11
Sep 09
149
88,461
2,244
1,403
1.74%
1,542
10
Sep 08
204
88,312
2,244
1,402
1.85%
1,634
11
Sep 07
291
88,108
2,244
1,401
1.82%
1,605
10
date
followers
following
uploads
eng. rate
avg. likes
avg. comments
Sep 06
325
87,817
2,244
1,401
1.68%
1,471
9
Sep 05
138
87,492
2,244
1,399
1.42%
1,244
8
Sep 04
91
87,354
2,244
1,398
1.3%
1,136
8
Sep 03
136
87,263
2,244
1,397
1.29%
1,128
7
Sep 02
137
87,127
2,244
1,396
1.31%
1,141
7
Sep 01
379
86,990
2,243
1,394
1.43%
1,242
7
Aug 30
186
86,611
2,243
1,391
1.46%
1,262
7
Aug 29
281
86,425
2,242
1,389
1.46%
1,264
7
Aug 27
109
86,144
2,240
1,386
1.47%
1,264
7
Aug 26
178
86,035
2,240
1,384
1.37%
1,182
7
Aug 25
141
85,857
2,240
1,382
1.19%
1,021
6
Aug 24
122
85,716
2,240
1,380
1.25%
1,069
6
Aug 23
161
85,594
2,240
1,378
1.24%
1,059
6
Aug 22
97
85,433
2,240
1,377
1.2%
1,021
6
followers vs
Feed
last 12
last 24
last 36
Jan 01 1970 GMT00:33
captions
A protective cell of the human immune system known as a dendritic cell, seen here in this coloured scanning electron micrograph (SEM).
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The long projections seen on the cell's surface are "feet" to help it move. These cells process foreign antigens which then act like an alarm signal, alerting other immune cells of the body to the infection.
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Dendritic cells found in the upper layer of the skin (the epidermis) are known as histiocytes or Langerhans cells. In the central nervous system they are known as microglia, and in the liver as Kupffer cells.
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Magnification:x 3000 when printed at 10cm wide.
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Credit: Steve Gschmeissner / Science Photo Library
Dead cells on top of other dead skin.
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The outer surface layer, the stratum corneum (cornified layer). It is formed from flattened, dead skin cells. The scaly appearance is due to the dead outer cells being constantly shed (sloughed off) and replaced by cells from the living epidermal layers below. This process is known as desquamation.
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The skin consists of an outer epidermis supported by an underlying dermis. It accounts for approximately 15% of the body weight of humans.
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Coloured scanning electron micrograph (SEM) of dead skin (human peel). Magnification: x300 when shortest axis printed at 25 millimetres.
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Credit: Dennis Kunkel Microscopy / Science Photo Library
Illustration of antibodies (Y-shaped) responding to an infection of coronavirus SARS-CoV-2 (orange).
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The coronaviruses take their name from their crown (corona) of surface proteins, which are used to attach and penetrate their host cells.
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Once inside the cells, the particles use the cells' machinery to make more copies of the virus.
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Antibodies bind to specific antigens, for instance, viral proteins, marking them for destruction by other immune cells.
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Credit: Juan Gaertner / Science Photo Library
This SEM of Penicillium chrysogenum looks incredible!
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A species of fungus in the family Trichocomaceae, has been used industrially to produce penicillin.
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Found in temperate and subtropical regions it is mostly found in indoor environments, especially in damp or water-damaged buildings.
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C:Nano Creative/Science Source/Science Photo Library
The 2020 in has been jointly awarded to Emmanuelle Charpentier and Jennifer A. Doudna.
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This was for their discovery of the CRISPR/Cas9 genetic scissors, one of gene technology’s best tools.
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Visit @nobelprize_org to find out more about the awards.
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Clip credit: Design Cells
@electron_micronaut captured this beautiful, abstract microscopic footage of fluid movements in a mixture of alcohol and glycerol.
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Evaporation of the volatile alcohol drives currents in the mixture. Filmed with differential interference contrast illumination.
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Credit: Karl Gaff / Science Photo Library
Congratulations to Roger Penrose, who has been awarded one half of the in Physics 2020.
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This was “for the discovery that black hole formation is a robust prediction of the general theory of relativity”.
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Head over to @nobelprize_org to read more about the awards.
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Image credit: Mark Garlick
Aortic aneurysms.
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3D computed tomography (CT) scan of part of the abdomen, with aneurysms (swellings, centre) of the descending part of the aorta.
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An aneurysm is a blood-filled dilation in a blood vessel wall. It is caused by a weakening of the vessel wall, which may be caused by hardening of the vessel (atherosclerosis), high blood pressure or injury. If left untreated an aneurysm can rupture, which is often fatal.
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Credit: Vsevolod Zviryk / Science Photo Library
Congratulations to the 2020 awardees of the in Physiology or Medicine.
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Harvey J. Alter, Michael Houghton and Charles M. Rice have been awarded jointly for their discoveries that led to the identification of the Hepatitis C virus.
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Credit: Thomas Deerinck, NCMIR / Science Photo Library
Lung cancer cells with blebs.
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Lung cancer occurs when abnormal cells divide in a chaotic and uncontrolled manner resulting in the formation of a tumour in the lungs.
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Lung cancer is the most common cause of cancer death in the UK. In 2016 it accounted for 21% of all cancer deaths in the UK. In terms of survival, approximately 5% will survive 10 years or more and 10% will survive 5 years or more.
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These particular cells are displaying a process known as blebbing. Blebbing is a bulge or protrusion of the plasma membrane of the cell which is visible on the cell surface. Blebbing is often seen during programmed cell death (apoptosis) or may be seen when a cell is undergoing physical or chemical stresses. It also has important functions in cellular processes like cell locomotion, playing a role in cell migration.
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Coloured scanning electron micrograph (SEM). Magnification: x3000 when printed at 10 cm wide.
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Credit: Anne Weston, Francis Crick Institute / Science Photo Library
What a wonderful world!
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View of the Earth from the International Space Station (ISS).
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The ISS orbits Earth at an altitude of around 400 kilometres. It takes 93 minutes to complete one orbit of Earth, travelling at just under 28,000 kilometres per hour. The ISS has been crewed continuously since November 2nd 2000.
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Credit: The Attic Room / NASA / Science Photo Library
Look at this animation of a beating heart, showing the electrical waves that produce the beats.
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The beats are the contractions of the atria and ventricles that pump blood around the body.
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The blue wave that spreads throughout the heart is the wave of depolarisation, which arises from the sinoatrial node, or SA node.
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The SA node is found in a groove located at the back of the heart, in the wall of the right atrium. From here, the wave of depolarisation spreads through the heart's muscle sequentially. The heart muscle contracts shortly after a wave of depolarisation passes through it.
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After contraction, the heart muscle has to recharge itself for the next wave. This recharge generates the wave of repolarisation (red wave). It is this cycle of depolarisation and repolarisation that is recorded by an electrocardiogram.
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Credit: Bogdan Leahu / Science Photo Library
Look at this animation of a beating heart, showing the electrical waves that produce the beats.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
The beats are the contractions of the atria and ventricles that pump blood around the body.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
The blue wave that spreads throughout the heart is the wave of depolarisation, which arises from the sinoatrial node, or SA node.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
The SA node is found in a groove located at the back of the heart, in the wall of the right atrium. From here, the wave of depolarisation spreads through the heart's muscle sequentially. The heart muscle contracts shortly after a wave of depolarisation passes through it.
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After contraction, the heart muscle has to recharge itself for the next wave. This recharge generates the wave of repolarisation (red wave). It is this cycle of depolarisation and repolarisation that is recorded by an electrocardiogram.
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Credit: Bogdan Leahu / Science Photo Library
hashtags
#activity
#anatomical
#anatomy
#animated
#animation
#atrial
#atrium
#beating
#blood
#cardiac
#health
#healthcare
#healthy
#heart
#heartbeat
#human
#medical
#medicine
#physiological
#physiology
#vascular
#ventricle
#ventricles
#science
#sciart
#sciencephoto
#scienceart
#medicalart
analysis
This post got
113% more likes
compared to @sciencephotolibrary's average. It uses
4% more hashtags
and its
caption is 49% longer
1,924
10
Oct 10 2020 GMT09:58
captions
Dead cells on top of other dead skin.
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The outer surface layer, the stratum corneum (cornified layer). It is formed from flattened, dead skin cells. The scaly appearance is due to the dead outer cells being constantly shed (sloughed off) and replaced by cells from the living epidermal layers below. This process is known as desquamation.
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The skin consists of an outer epidermis supported by an underlying dermis. It accounts for approximately 15% of the body weight of humans.
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Coloured scanning electron micrograph (SEM) of dead skin (human peel). Magnification: x300 when shortest axis printed at 25 millimetres.
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Credit: Dennis Kunkel Microscopy / Science Photo Library
hashtags
#biological
#biology
#cuticle
#dandruff
#deadskin
#dermatological
#dermatology
#desquamation
#epidermal
#epidermis
#epithelia
#humanskin
#keratin
#skin
#science
#sciart
#sciencephoto
#scienceart
#medicalart
#microscope
#microscopy
#microscopic
#micro
#micrography
#sem
#scanningelectronmicroscopy
#macrophotography
#scanningelectron
#electronmicroscopy
#electronmicroscope
analysis
This post got
48% more likes
compared to @sciencephotolibrary's average. It uses
11% more hashtags
and its
caption is 17% longer
1,442
3
Oct 05 2020 GMT07:30
captions
Lung cancer cells with blebs.
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Lung cancer occurs when abnormal cells divide in a chaotic and uncontrolled manner resulting in the formation of a tumour in the lungs.
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Lung cancer is the most common cause of cancer death in the UK. In 2016 it accounted for 21% of all cancer deaths in the UK. In terms of survival, approximately 5% will survive 10 years or more and 10% will survive 5 years or more.
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These particular cells are displaying a process known as blebbing. Blebbing is a bulge or protrusion of the plasma membrane of the cell which is visible on the cell surface. Blebbing is often seen during programmed cell death (apoptosis) or may be seen when a cell is undergoing physical or chemical stresses. It also has important functions in cellular processes like cell locomotion, playing a role in cell migration.
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Coloured scanning electron micrograph (SEM). Magnification: x3000 when printed at 10 cm wide.
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Credit: Anne Weston, Francis Crick Institute / Science Photo Library
hashtags
#apoptosis
#bleb
#blebbing
#blebs
#cancer
#cancerous
#disease
#healthcare
#lung
#malignant
#medical
#medicine
#microscopic
#oncological
#oncology
#science
#sciart
#scienceart
#medicalart
#microscope
#microscopy
#microscopic
#micro
#micrography
#sem
#scanningelectronmicroscopy
#macrophotography
#scanningelectron
#electronmicroscopy
#electronmicroscope
analysis
This post got
11% more likes
compared to @sciencephotolibrary's average. It uses
11% more hashtags
and its
caption is 63% longer
comments
2,760
22
Oct 04 2020 GMT07:15
captions
Look at this animation of a beating heart, showing the electrical waves that produce the beats.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
The beats are the contractions of the atria and ventricles that pump blood around the body.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
The blue wave that spreads throughout the heart is the wave of depolarisation, which arises from the sinoatrial node, or SA node.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
The SA node is found in a groove located at the back of the heart, in the wall of the right atrium. From here, the wave of depolarisation spreads through the heart's muscle sequentially. The heart muscle contracts shortly after a wave of depolarisation passes through it.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
After contraction, the heart muscle has to recharge itself for the next wave. This recharge generates the wave of repolarisation (red wave). It is this cycle of depolarisation and repolarisation that is recorded by an electrocardiogram.
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
Credit: Bogdan Leahu / Science Photo Library
hashtags
#activity
#anatomical
#anatomy
#animated
#animation
#atrial
#atrium
#beating
#blood
#cardiac
#health
#healthcare
#healthy
#heart
#heartbeat
#human
#medical
#medicine
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Oct 10 2020 GMT09:58
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Dead cells on top of other dead skin.
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The outer surface layer, the stratum corneum (cornified layer). It is formed from flattened, dead skin cells. The scaly appearance is due to the dead outer cells being constantly shed (sloughed off) and replaced by cells from the living epidermal layers below. This process is known as desquamation.
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The skin consists of an outer epidermis supported by an underlying dermis. It accounts for approximately 15% of the body weight of humans.
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Coloured scanning electron micrograph (SEM) of dead skin (human peel). Magnification: x300 when shortest axis printed at 25 millimetres.
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Credit: Dennis Kunkel Microscopy / Science Photo Library
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Oct 07 2020 GMT11:42
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The 2020 in has been jointly awarded to Emmanuelle Charpentier and Jennifer A. Doudna.
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This was for their discovery of the CRISPR/Cas9 genetic scissors, one of gene technology’s best tools.
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Visit @nobelprize_org to find out more about the awards.
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Clip credit: Design Cells
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