Artemis I blasts off: Why mannequins are headed to the moon

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Artemis I blasts off: Why mannequins are headed to the moon

Published

1 year ago

November 16, 2022

Harry Miller

Mission will pave the way to send astronauts to the moon

⭐️HERE’S WHAT YOU NEED TO KNOW⭐️

The Artemis I mission has launched to the moon.
It serves as a test flight for the next mission: Artemis II.
The goal is to soon land astronauts on the moon.
It also serves as a stepping stone toward deeper space travel.
Read on to find out what else Artemis I will do. ⬇️ ⬇️ ⬇️

Fourth time’s the charm?

After three cancelled launches, NASA’s Artemis I mission is finally a go.

On Nov 16 at 1:47 a.m. ET, NASA’s Space Launch System rocket with the Orion spacecraft took off from Kennedy Space Center in Florida, en route to the moon.

The spacecraft is part of a mission called Artemis I.

It has no astronauts aboard (yet) and will spend 26 days in space, entering the moon’s orbit before eventually returning to Earth in the Pacific Ocean.

The mission is a test flight for the rocket for a series of future missions that NASA hopes will eventually land astronauts on the moon for the first time in 50 years.

The larger goal of the Artemis program is to better learn how to keep humans alive in space to pave the way for future missions that will send humans to other planets, such as Mars.

What will Artemis I do?

Artemis I has several objectives.

First, there are three high-tech mannequins on board with special equipment designed to test the effects of radiation on the human body.

Space travel with humans has been historically difficult because space is incredibly dangerous to the human body. Orion spacecraft has three mannequins aboard to test what astronauts may experience during flight. (Image credit: NASA)

Radiation is a huge barrier for space travel since it can cause things like cancer, so better understanding the role of radiation will inform how to more safely send humans to space.

Artemis I will also launch 10 miniature satellites, called CubeSats, into the moon’s orbit to run experiments to further help future moon travel.

One of those experiments will test the safety of the lunar surface in order to pinpoint optimal landing points for astronauts.

But the main goal of Artemis I is to serve as a test flight.

NASA scientists want to ensure the craft will run smoothly before sending humans on the same trip around the moon for Artemis II in 2024 — including a Canadian.

The hope for Artemis III, slated for 2025, is to actually land astronauts on the moon.

What’s the goal of the larger Artemis program?

The Artemis program has many goals, including sending the first woman and person of colour to the moon and studying the lunar surface.

But the Artemis program more broadly is a stepping stone toward future, more ambitious missions that send humans to planets like Mars and beyond.

An artist’s depiction of Orion spacecraft, left, preparing to dock the lunar gateway, right. The lunar gateway will serve as a base to allow astronauts to more easily study the moon’s surface. (Image credit: NASA)

For example, future Artermis missions will establish something called the lunar gateway, a space station in the moon’s orbit that could allow astronauts to travel back and forth between the moon’s surface.

It will serve as a model for future missions to Mars, and is just one facet of the program that will prepare humans for travel to farther planets.

You can learn more about the Artemis mission by clicking here.

Have more questions? Want to tell us how we’re doing? Use the “send us feedback” link below. ⬇️⬇️⬇️

With files from Nicole Mortillaro/CBC
TOP IMAGE CREDIT: Malcolm Denemark/The Associated Press

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Giant prehistoric salmon had tusk-like teeth for defence, building nests: study – CP24

Published

53 mins ago

April 25, 2024

Harry Miller

Brenna Owen, The Canadian Press

Published Wednesday, April 24, 2024 7:27PM EDT

Last Updated Wednesday, April 24, 2024 7:27PM EDT

The artwork and publicity materials showcasing a giant salmon that lived five million years ago were ready to go to promote a new exhibit, when the discovery of two fossilized skulls immediately changed what researchers knew about the fish.

Initial fossil discoveries of the 2.7-metre-long salmon in Oregon in the 1970s were incomplete and had led researchers to mistakenly suggest the fish had fang-like teeth.

It was dubbed the “sabre-toothed salmon” and became a kind of mascot for the Museum of Natural and Cultural History at the University of Oregon, says researcher Edward Davis.

But then came discovery of two skulls in 2014.

Davis, a member of the team that found the skulls, says it wasn’t until they got back to the lab that he realized the significance of the discovery that has led to the renaming of the fish in a new, peer-reviewed study.

“There were these two skulls staring at me with sideways teeth,” says Davis, an associate professor in the department of earth sciences at the university.

In that position, the tusk-like teeth could not have been used for biting, he says.

“That was definitely a surprising moment,” says Davis, who serves as director of the Condon Fossil Collection at the university’s Museum of Natural and Cultural History.

“I realized that all of the artwork and all of the publicity materials and bumper stickers and buttons and T-shirts we had just made two months prior, for the new exhibit, were all out of date,” he says with a laugh.

Davis is co-author of the new study in the journal PLOS One, which renames the giant fish the “spike-toothed salmon.”

It says the salmon used the tusk-like spikes for building nests to spawn, and as defence mechanisms against predators and other salmon.

The salmon lived about five million years ago at a time when Earth was transitioning from warmer to relatively cooler conditions, Davis says.

It’s hard to know exactly why the relatives of today’s sockeye went extinct, but Davis says the cooler conditions would have affected the productivity of the Pacific Ocean and the amount of rain feeding rivers that served as their spawning areas.

Another co-author, Brian Sidlauskas, says a fish the size of the spike-toothed salmon must have been targeted by predators such as killer whales or sharks.

“I like to think â€¦ it’s almost like a sledgehammer, these salmon swinging their head back and forth in order to fend off things that might want to feast on them,” he says.

Sidlauskas says analysis by the lead author of the paper, Kerin Claeson, found both male and female salmon had the “multi-functional” spike-tooth feature.

“That’s part of our reason for hypothesizing that this tooth is multi-functional â€¦ It could easily be for digging out nests,” he says.

“Think about how big the (nest) would have to be for an animal of this size, and then carving it out in what’s probably pretty shallow water; and so having an extra digging tool attached to your head could be really useful.”

Sidlauskas says the giant salmon help researchers understand the boundaries of what’s possible with the evolution of salmon, but they also capture the human imagination and a sense of wonder about what’s possible on Earth.

“I think it helps us value a little more what we do still have, or I hope that it does. That animal is no longer with us, but it is a product of the same biosphere that sustains us.”

This report by The Canadian Press was first published April 24, 2024.

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Nasa's Hubble marks 34th anniversary with stunning view of Little Dumbbell Nebula – The Times of India

Published

2 hours ago

April 25, 2024

Harry Miller

In celebration of its 34th anniversary, Nasa‘s Hubble Space Telescope has once again wowed astronomers and space enthusiasts alike by capturing an extraordinary image of the Little Dumbbell Nebula. This latest image offers a vivid glimpse into the complexities of a planetary nebula, demonstrating Hubble’s enduring capabilities in its extended mission.
The Little Dumbbell Nebula, also known as Messier 76, is one of the faintest objects in the Messier catalog and has intrigued astronomers for its intricate structure and dual-lobed shape. This planetary nebula, located approximately 2,500 light-years away in the constellation Perseus, represents a brief stage in the life cycle of a moderate-sized star like our sun.
Dr. Jennifer Wiseman, a senior scientist at Nasa’s Goddard Space Flight Center, expressed her admiration for the new imagery: “This beautiful nebula is what remains after a star like our own sun has exhausted the bulk of its nuclear fuel and shed its outer layers. The vibrant colors and intricate structures visible in the nebula are a telescope’s way of painting the portrait of the final stages of stellar evolution.”
The Little Dumbbell Nebula, despite its faintness, shines brightly in the detailed images provided by Hubble, allowing scientists to study aspects of the nebula that are rarely visible. The images highlight the dense, glowing gas and complex layers of material expelled from the dying star at the center of the nebula.
According to Dr. Wiseman, “Hubble’s high-resolution capabilities allow us to examine the fine details within the nebula, helping us understand how stars expel their material and the dynamics of this expulsion process. This image is more than just a picture; it’s a deep dive into the life of stars.”
Since its launch on April 24, 1990, Hubble has revolutionized our understanding of the universe, from the dynamics of galaxies to the atmospheres of exoplanets and the distribution of dark matter. Its contributions continue to support and complement data gathered by newer space observatories.
As Hubble continues its journey in space, the scientific community remains enthusiastic about the ongoing contributions it will bring to our understanding of the cosmos. Dr. Wiseman remarked, “Every image from Hubble is a new lesson in our cosmic curriculum.”
These observations not only contribute significantly to our knowledge of the life cycle of stars but also continue to highlight the critical role of Hubble in the exploration and understanding of our universe. As Hubble enters another year in orbit, its legacy of discoveries promises to keep inspiring both the scientific community and the public.

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SpaceX launch marks 300th successful booster landing – Phys.org

Published

10 hours ago

April 24, 2024

Harry Miller

Credit: Unsplash/CC0 Public Domain

SpaceX sent up the 30th launch from the Space Coast for the year on the evening of April 23, a mission that also featured the company’s 300th successful booster recovery.

A Falcon 9 rocket carrying 23 of SpaceX’s Starlink internet satellites blasted off at 6:17 p.m. Eastern time from Cape Canaveral Space Force Station’s Space Launch Complex 40.

The first-stage booster set a milestone of the 300th time a Falcon 9 or Falcon Heavy booster made a successful recovery landing, and the 270th time SpaceX has reflown a booster.

This particular booster made its ninth trip to space, a resume that includes one human spaceflight, Crew-6. It made its latest recovery landing downrange on the droneship Just Read the Instructions in the Atlantic Ocean.

The company’s first successful booster recovery came in December 2015, and it has not had a failed booster landing since February 2021.

The current record holder for flights flew 11 days ago making its 20th trip off the launch pad.

SpaceX has been responsible for all but two of the launches this year from either Kennedy Space Center or Cape Canaveral with United Launch Alliance having launched the other two.

SpaceX could knock out more launches before the end of the month, putting the Space Coast on pace to hit more than 90 by the end of the year, but the rate of launches by SpaceX is also set to pick up for the remainder of the year with some turnaround times at the Cape’s SLC-40 coming in less than three days.

That could amp up frequency so the Space Coast could surpass 100 launches before the end of the year, with the majority coming from SpaceX. It hosted 72 launches in 2023.

More launches from ULA are on tap as well, though, including the May 6 launch atop an Atlas V rocket of the Boeing CST-100 Starliner with a pair of NASA astronauts to the International Space Station.

ULA is also preparing for the second launch ever of its new Vulcan Centaur rocket, which recently received its second Blue Origin BE-4 engine and is just waiting on the payload, Sierra Space’s Dream Chaser spacecraft, to make its way to the Space Coast.

Blue Origin has its own rocket it wants to launch this year as well, with New Glenn making its debut as early as September, according to SLD 45’s range manifest.

2024 Orlando Sentinel. Distributed by Tribune Content Agency, LLC.

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SpaceX launch marks 300th successful booster landing (2024, April 24)
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