A small tool to view real-world ActivityPub objects as JSON! Enter a URL
or username from Mastodon or a similar service below, and we'll send a
request with
the right
Accept
header
to the server to view the underlying object.
{
"@context": "https://www.w3.org/ns/activitystreams",
"type": "OrderedCollectionPage",
"orderedItems": [
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/818835765302665235",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/818835765302665235/entities/urn:activity:1223345105001422848",
"attributedTo": "https://www.minds.com/api/activitypub/users/818835765302665235",
"content": "Why the Brain Enjoys Music<br /><br />Interaction between auditory areas of the brain and the reward system drive pleasure when we listen to music.<br /><br />Communication between the brain’s auditory and reward circuits is the reason why humans find music rewarding, according to new research published in Journal of Neuroscience.<br /><br /><a href=\"https://neurosciencenews.com/why-the-brain-enjoys-music/\" target=\"_blank\">https://neurosciencenews.com/why-the-brain-enjoys-music/</a><br /><br />",
"to": [
"https://www.w3.org/ns/activitystreams#Public"
],
"cc": [
"https://www.minds.com/api/activitypub/users/818835765302665235/followers"
],
"tag": [],
"url": "https://www.minds.com/newsfeed/1223345105001422848",
"published": "2021-03-29T18:56:41+00:00",
"source": {
"content": "Why the Brain Enjoys Music\n\nInteraction between auditory areas of the brain and the reward system drive pleasure when we listen to music.\n\nCommunication between the brain’s auditory and reward circuits is the reason why humans find music rewarding, according to new research published in Journal of Neuroscience.\n\nhttps://neurosciencenews.com/why-the-brain-enjoys-music/\n\n",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/818835765302665235/entities/urn:activity:1223345105001422848/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/818835765302665235",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/818835765302665235/entities/urn:activity:818841332922089472",
"attributedTo": "https://www.minds.com/api/activitypub/users/818835765302665235",
"content": "Researchers Find Algorithm for Large Scale Brain Simulations<br /><br />An international group of researchers has made a decisive step towards creating the technology to achieve simulations of brain-scale networks on future supercomputers of the exascale class. The breakthrough, published in Frontiers in Neuroinformatics, allows larger parts of the human brain to be represented, using the same amount of computer memory. Simultaneously, the new algorithm significantly speeds up brain simulations on existing supercomputers.<br /><br /><a href=\"http://neurosciencenews.com/brain-simulation-algorithm-8599/\" target=\"_blank\">http://neurosciencenews.com/brain-simulation-algorithm-8599/</a><br /><br /><a href=\"https://www.minds.com/search?f=top&t=all&q=science\" title=\"#science\" class=\"u-url hashtag\" target=\"_blank\">#science</a> <a href=\"https://www.minds.com/search?f=top&t=all&q=neuroscience\" title=\"#neuroscience\" class=\"u-url hashtag\" target=\"_blank\">#neuroscience</a> <a href=\"https://www.minds.com/search?f=top&t=all&q=deeplearning\" title=\"#deeplearning\" class=\"u-url hashtag\" target=\"_blank\">#deeplearning</a>",
"to": [
"https://www.w3.org/ns/activitystreams#Public"
],
"cc": [
"https://www.minds.com/api/activitypub/users/818835765302665235/followers"
],
"tag": [],
"url": "https://www.minds.com/newsfeed/818841332922089472",
"published": "2018-03-09T13:43:07+00:00",
"source": {
"content": "Researchers Find Algorithm for Large Scale Brain Simulations\n\nAn international group of researchers has made a decisive step towards creating the technology to achieve simulations of brain-scale networks on future supercomputers of the exascale class. The breakthrough, published in Frontiers in Neuroinformatics, allows larger parts of the human brain to be represented, using the same amount of computer memory. Simultaneously, the new algorithm significantly speeds up brain simulations on existing supercomputers.\n\nhttp://neurosciencenews.com/brain-simulation-algorithm-8599/\n\n#science #neuroscience #deeplearning",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/818835765302665235/entities/urn:activity:818841332922089472/activity"
}
],
"id": "https://www.minds.com/api/activitypub/users/818835765302665235/outbox",
"partOf": "https://www.minds.com/api/activitypub/users/818835765302665235/outboxoutbox"
}