https://www.youtube.com/watch?v=XzIw0c_MjTc
We where contacted by an educator at the UT McDonald Observatory that wanted to use a clip in a lecture to demonstrate meteor impacts so we also added this c

https://phys.org/news/2023-02-asteroid-impact-motion.html
Examining an asteroid impact in slow motion. Large asteroid impacts can melt significant amounts of material from Earth's crust (artist's impression). Credit: NASA, Don Davis. For the first time

https://www.youtube.com/watch?v=XnUyufth-y4
This sequence of high-speed videos reveals what happens underground when a missile or meteor hits the earth. Shown first at slow, then at medium and finally

https://phys.org/news/2023-02-asteroid-impact-motion.pdf
The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a

https://www.sott.net/article/477685-Asteroid-impact-in-slow-motion
For the first time, researchers have recorded live and in atomic detail what happens to the material in an asteroid impact. The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a diamond anvil cell, while monitoring it with DESY's X-ray source PETRA III.

https://www.universetoday.com/160261/recreating-the-extreme-forces-of-an-asteroid-impact-in-the-lab/
Langenhorst's team came up with a way to simulate the incredible forces of an asteroid impact in the lab. The idea was to put quartz crystals (similar to the rocks shocked by the Meteor Crater

https://www.uni-jena.de/en/162360/asteroid-impact-in-slow-motion
For the first time, researchers have recorded live and in atomic detail what happens to the material in an asteroid impact. The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a diamond anvil cell, while monitoring it with DESY's X-ray source PETRA III.

https://www.spacedaily.com/reports/Asteroid_impact_in_slow_motion_999.html
Asteroid impact in slow motion. Asteroid impact in slow motion. by Staff Writers. Jena, Germany (SPX) Feb 08, 2023. Asteroid impacts are catastrophic events that create huge craters and sometimes melt parts of Earth's bedrock." Nevertheless, craters are often difficult to detect on Earth, because erosion, weathering and plate tectonics cause

https://www.myscience.org/en/news/2023/asteroid_impact_in_slow_motion-2023-uni-jena
7.02.2023 - For the first time, researchers have recorded live and in atomic detail what happens to the material in an asteroid impact. The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a diamond anvil cell, while monitoring it with DESY's X-ray source PETRA I

https://www.eurekalert.org/news-releases/978916
The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a

https://www.nanowerk.com/news2/space/newsid=62322.php
The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a diamond anvil cell, while monitoring it with DESY's X-ray source PETRA III. The observation reveals an intermediate state in quartz that solves a decades

https://www.innovations-report.com/physics-and-astronomy/asteroid-impact-in-slow-motion/
For the first time, researchers have recorded live and in atomic detail what happens to the material in an asteroid impact. The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a diamond anvil cell, while monitoring it with DESY's X-ray source PETRA III.

https://lightsources.org/2023/02/07/asteroid-impact-in-slow-motion/
The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a diamond anvil cell, while monitoring it with DESY's X-ray source PETRA III. The observation reveals an intermediate state in quartz that solves a

https://www.sciencedirect.com/science/article/pii/S0019103521003894
In order to generalize this to real impacting asteroids, impactor motions from a model (Chesley et al., 2019), as seen from Earth's center, were simulated 20 days, 10 days, 5 days, and 2 days before impact.These are shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5.These show the broad characteristics suggested by the simple geometric model: near zero motion near opposition, eastward motion to the

https://futrzz.blogspot.com/2012/08/simulated-meteor-impact-in-slow-motion.html
Simulated Meteor impact in slow motion We where contacted by an educator at the UT McDonald Observatory that wanted to use a clip in a lecture to demonstrate meteor impacts so we also added this clip too for them.We dropped a glass ball from 12 feet and recorded the impact @ 5000 FPS. This is their description: This slow motion impact video is

https://janus.astro.umd.edu/astro/impact/
Projectile Diameter: Projectile Velocity: (Kilometers per second) (Results are Approximate!) Millions of collisions since the late 1990s. Check out other programs in the Astronomy Workshop. Solar System Collisions written by Dr. Douglas P. Hamilton. Tool for simulating the impact of an asteroid or comet with planets and moons in the Solar System.

https://spanish.lifeboat.com/blog/2023/02/examining-an-asteroid-impact-in-slow-motion
For the first time, researchers have recorded live and in atomic detail what happens to the material in an asteroid impact. The team of Falko Langenhorst from the University of Jena and Hanns-Peter Liermann from DESY simulated an asteroid impact with the mineral quartz in the lab and pursued it in slow motion in a diamond anvil cell, while monitoring it with DESY's X-ray source PETRA III.

https://www.killerasteroids.org/interactives/impact/index.php
Our piece is based on this impact calculator, if you want to see more detail. Activities and Multimedia. About the site. This site was developed by the Space Science Institute with funding from NASA and the National Science Foundation. Legal. Great Balls of Fire.

https://www.exploratorium.edu/blogs/fabricated-realities/destination-mars-meteor-impact
Destination Mars - A Meteor Impact Simulation on the Surface of Mars. Experience a scale model of a Martian asteroid impact. The model crater is 50 m in diameter and the model runs in slow motion at 1/10th the speed of an actual event. Watch a machinima of the exhibit in Second Life on Exploratorium TV. Teleport to the Destination Mars

https://www.express.co.uk/news/science/1731947/asteroid-impact-slow-motion-simulation-solves-decades-old-mystery-quartz-lamellae
A "decades-old mystery" has been cracked by simulating, in slow motion, what happens to material subjected to the extraordinary force of an asteroid impact.The study, led by mineralogist

https://www.dailymotion.com/playlist/x3vour
Weapons Lovers. 2:05. Feuer in Zeitlupe - Fire in slow motion. Volker Jordan. This playlist is a collection of my favorite slow motion video images. These awesome slow motion video clips show you things that you can see every day but never like you can see them UltraSlo slow motion action.

https://highresolutionmusic.com/song/meteorites-35328890
You are listening to the song Meteorites by Circular, written by Circular. The highest quality of audio that you can download is flac. Also, you can play quality at