Trending December 2023 # 4 Big Questions About Elon Musk’s Satellite Internet Plan Answered # Suggested January 2024 # Top 17 Popular

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What Will This Mean for Internet Censorship?

The hope that satellite internet is the answer to censorship is (sort of) flawed. Yes, news reports have shown with enthusiasm how hackers plan to launch satellites to circumvent censorship. This is, sadly, nothing but a pipe dream. For an internet connection to work, it still has to function on something known as the TCP/IP layer. This means that both ends of communication must have an IP address. This is the only way that two computers in separate places can shake hands.

In addition to this, satellite-based communication still has to follow the rules of terrestrial communication. In other words, they have to reach routers on the earth’s surface. Any censorship that was in place will still occur as long as signals sent between two endpoints land on the country in question. This isn’t hard to comprehend, really. Also, Musk’s goal in this project is not to overcome censorship but to provide access to the Internet in zones where it has previously been unfeasible.

Will It Be Fast?

No. Elon Musk makes the (accurate) claim that the speed of light is “faster in the vacuum of space than it is for fiber”. However, the Internet as we know it isn’t limited so much by the speed of light as it is by the limitations of the hardware forwarding and transmitting packets. And that is assuming that the hard drives of the computers on both ends are fast enough to send information at the maximum speed of their internet connections. Knowing more about the hardware specifications of these satellites will be crucial to determining the actual speed that you’d get out of them.

Despite the caveat of having limited speed, it is at least better than not having Internet access whatsoever.

How Will Connections Be Controlled?

One of the problems with satellites is that any signal that reaches them must be responded to. The reporting behind this project suggests that Musk isn’t doing this out of the kindness of his heart. It’s a commercial product. This means that he will somehow have to factor in for the fact that some people who aren’t subscribed to his network may try to access it.

In normal terrestrial routers, the line connecting to a non-subscribed computer is shut off. Illicit connections can be physically severed. It’s easy to control who gets access to the network and who doesn’t.

Herein lies the problem with satellite networks: They spend computational resources to verify potentially delinquent connections because of their lack of a physical link. What if a thousand computers try to connect to one of these tiny satellites at the same time, all of them delinquent? It would surely overload the system for a while, making it difficult for packets from legitimate connections to be processed.

Can Internet on Mars Exist?

The Verge quotes Elon Musk: “It will be important for Mars to have a global communications network as well. I think this needs to be done, and I don’t see anyone else doing it.” Can this kind of thing happen?

Totally! But it will work much differently than Musk’s current satellite project.

First of all, you have two options to send a message to or from Earth:

Just broadcast it all willy-nilly out of the atmosphere like you do with radio waves. The signal will eventually reach its destination.

Focus the signal on the other planet and just send it as a beam of streaming data in that general direction.

The first option requires more power. That’s (kind of) okay for Earth but not necessarily wise on Mars where resources would be sparse. Focusing the signal on its destination would lower the power requirements significantly, since you do not have to cover such a wide area. To provide perspective, shine a 10-watt laser at the moon, and someone on the moon will see it, but do the same with a 60-watt light bulb, and the unfocused light will terminate somewhere in the earth’s atmosphere. Focused beams work much better over very long distances.

Speaking of distance, if we ever do get a colony on Mars and set up an Internet connection there, the planet is so far away that it takes anywhere from four minutes to nearly half an hour for a signal to make it to Earth (and vice versa). Imagine waiting half an hour for a page to load!

It’s Your Turn!

Miguel Leiva-Gomez

Miguel has been a business growth and technology expert for more than a decade and has written software for even longer. From his little castle in Romania, he presents cold and analytical perspectives to things that affect the tech world.

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You're reading 4 Big Questions About Elon Musk’s Satellite Internet Plan Answered

What Is Ram In A Pc? All Questions Answered

If you’ve ever shopped for a laptop and seen a specification say “4GB RAM” or “8GB RAM,” you may have asked yourself, “What is RAM? Why do I need it? How much do I need?” Today, you’ll learn everything you need to know about the basics of RAM.

What Is RAM?

RAM, or Random Access Memory, is the place in your computer for temporary storage of your files and applications. The need for RAM arises because the hard disk speed cannot keep up with the CPU speed. RAM has a much higher frequency than a hard disk, which makes it ideal for storing temporary files so the CPU can process them faster without having to wait for a slow hard disk.

One thing to note is that the file on the RAM is volatile, which means it is not permanent. Once you power off the computer, all RAM data is lost. If you’ve ever been working on something and your laptop died before you were able to save it, you lost your data because you were working on that document in RAM and it wasn’t saved back to your hard drive yet.

Is RAM the Same as Memory?

Remember that RAM stands for Random Access Memory. In short, the terms RAM and memory refer to the same thing.

Why Is RAM Important?

RAM is critical for the speed and usability of a system. Especially when we had much slower hard drives, it would have taken an excruciating amount of time to do anything. It’s a really fast staging area, temporary storage for the processes that your computer is working on.

For a vast majority of applications, using your hard drive is essential to a good experience. For example, if you think about your web browser, whether it’s Chrome, Firefox, or Safari, you have tracking cookies and stored passwords. If your browser had to go all the way to your hard drive for absolutely every tracking cookie and password, it would be unbelievably slow.

Why Does Getting More RAM Make My System Run Faster?

When you increase the amount of RAM in your system, you are increasing the buffer for your hard disk so your content won’t be spilled onto the virtual memory.

How Much RAM Do You Need?

That’s a question that depends on why you’re using that computer. For the majority of people, I would say that around 8GB of RAM is plenty; most modern machines ship with that much anyways. If you’re hoping to play video games, you may want to push that up to 16GB of RAM. For more memory-intensive applications, like running Virtual Machines or compiling large code bases, I would recommend upwards of 32 to 64 GB of RAM. .

Now that you’ve learned what RAM is on a laptop and the basics of RAM, make sure to check out more articles on RAM and learn about RAM timing, how to check RAM health in Windows 10, and how to free up RAM in Windows 10.

John Perkins

John is a young technical professional with a passion for educating users on the best ways to use their technology. He holds technical certifications covering topics ranging from computer hardware to cybersecurity to Linux system administration.

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4 Ways To Encourage Students To Ask Questions

Take a giant beach ball. Roll it around, toss it in the air, do all kinds of things with it, and then bring it back to where you started. At least one point on the ball is exactly where it was before you did all that stuff. Cool, huh? What does it make you wonder?

This phenomenon is a basic fact in linear algebra, and I demonstrated it to my students to kick off our unit on eigenvalues. After the demonstration, they started to ask questions—brilliant questions! Their questions foreshadowed what we were going to learn in the unit and even got into deep existential ideas in math. Thrilled, I quickly grabbed a poster and started writing all of their questions down. As the unit went on, we returned to their questions and realized that we had learned enough to answer many of them. This kept my students excited and engaged. The learning also stuck with them because they were invested in finding the answers.

As teachers, we strive to make our content relevant to our students. Relevance keeps students motivated and helps them transfer their new knowledge to contexts that are important to their daily lives. By giving students the opportunity to ask questions about the content, we let them do the work to create those connections. Their questions automatically allow them to personally relate to what they are learning.

Questions as Revelations

When students ask questions, teachers get a glimpse into their prior knowledge with a topic. Their questions expose what they know and help us find that just-right level of challenge. Students shut down when they are confronted with work that is beyond their level of capability and get bored when the work is too easy. Their questions usually indicate exactly where they are.

Student questions also help us differentiate based on their interests. Their wonderings expose the parts of the content that they want to explore more deeply. We can give students the opportunity to focus that energy on their interests, further boosting motivation and the transfer of knowledge.

There is good reason to believe that when students ask questions at the beginning of a new topic or unit, they will learn and retain the content better. As they learn, they seek answers, keeping their minds engaged and primed to eat up new information. In Small Teaching: Everyday Lessons from the Science of Learning, James Lang cites research proving that the act of anticipating an answer kick-starts a part of the brain that helps us form deeper, longer-lasting memories.

With all of these benefits in mind, how can we create a culture of curiosity and help students ask more questions?

4 Strategies to Promote Student Questions

1. Present thought-provoking prompts. When something is surprising or unusual, our human instinct is to be curious. This was evident in my linear algebra class with the beach ball problem. I have also presented surprising mathematical results, interesting data sets, open problems in math, news headlines, flawed proofs, and historical uses of math in other cultures to prompt question-asking. But you can find thought-provoking prompts in any discipline. Look to political cartoons, viral (appropriate) YouTube or TikTok videos, unexpected scientific findings, songs, and more.

2. Celebrate every question. When students ask questions, celebrate them! I like to make a big deal out of good questions by stopping class and having the student repeat the question to the group. Then we have a class discussion about it. We write their questions on index cards and post them on the “I Wonder” wall. My students take pride in having their question added to the wall.

3. Turn questions into teachable moments. In my statistics class, a student asked a question about something he noticed about the way data was presented in an article we read. The whole class looked at it, and we tried to replicate the presentation from the raw data. It led me to discuss two-way frequency tables and conditional probability, a topic that I wasn’t planning to present for weeks. The learning stuck because it was relevant in that moment.

4. Help students ask better questions. Model question-asking yourself. When I show students a prompt, I make it a point to participate in the question-asking process. They see my curiosity, and it inspires them to ask more questions. They also start to see the types of questions that we can ask, and it gives them more ideas. You can also use a protocol like the Question Formulation Technique to help your students understand and value different types of questions.

Creating a culture of curiosity and wonder does not need to take up extra time in your curriculum, nor do you need to implement a full inquiry-based model in your classroom. You can simply present an inspiring prompt every once in a while and let students’ curiosity run wild. If the prompt is related to your content and you can build on it, wonderful! If not, you can still get students’ creative juices flowing. This lets them know that school is a space where questions are welcomed and integral to learning.

10 Things To Know About Ipad Mini 4

You’re excused for not caring much about the iPad mini 4, which Apple unveiled yesterday alongside other new gadgets. Phil Schiller, Apple’s Senior Vice President of Worldwide Marketing, literally spent a few seconds talking about the new mini.

But there’s more to the iPad mini 4 than meets the eye. I’ve combed through Apple’s press releases, read every word about it on their website and watched the entire presentation twice to bring you this handy listicle of ten things you may not have known about the fourth-generation iPad mini.

Before we get to it, just a quick reminder that its predecessor, the iPad mini 3, was also a modest upgrade as the only improvements over the iPad mini 2 were Touch ID and a gold color option. Because it was nearly identical to the iPad mini 2 hardware-wise, the iPad mini 3 drew fainter praise than its predecessor.

Thinner and lighter than iPad mini 3, more pocketable than iPad Air 2

At just 0.65 pounds, the new iPad mini is lighter than the iPad mini 3 (0.73 pounds). It’s also eighteen percent thinner, measuring 6.1mm (0.24 inch) in profile versus its predecessor’s 7.5mm (0.29 inch) body—a discernible 1.4mm difference.

iPad mini 3 dimensions and weight:

Height: 200 mm (7.9 inches)

Width: 134.7 mm (5.3 inches)

Depth: 7.5 mm (0.3 inch)

Weight (Wi-Fi): 331 g (0.73 pound)

Weight (Wi-Fi + Cellular): 341 grams (0.752 pound)

iPad mini 4 dimensions and weight:

Height: 203.2 mm (8 inches)

Width: 134.8 mm (5.3 inches)

Depth: 6.1 mm (0.24 inch)

Weight (Wi-Fi): 298.8 grams g (0.65 pound)

Weight (Wi-Fi + Cellular): 304 grams g (0.67 pound)

With a screen measuring 7.9 inches diagonally, the iPad mini 4 offers more screen space than the iPhone 6s Plus and is more pocketable than the iPad Air 2 with its 9.7-inch screen.

Fully laminated display

Unlike previous iPad minis that were constructed with three separate display components, the iPad mini 4 fuses those three layers into one. This screen assembly process, also known as in-cell technology, is also used on iPhones and iPad Airs.

Because the in-cell process basically eliminates gaps between the layers, the internal reflectance caused by those gaps is reduced. You get greater contrast, more lifelike colors and sharper images that look as if painted directly on the glass for the LCD layer is now closer than ever to your eyes.

Both touch sensitivity and accuracy of the screen have been improved, too, especially when you make quick gestures. Lastly, a custom-designed antireflective coating reduces glare by 56 percent compared with previous iPad min displays.

No, it doesn’t have the power and performance of iPad Air 2

Apple’s marketing honcho Phil Schiller proclaimed during yesterday’s keynote presentation that with the iPad mini 4 Apple has taken “the power and performance of the iPad Air 2 and built it into an even smaller, mini enclosure.”

That’s not 100 percent true: the iPad Air 2 runs an improved A8X microchip and the iPad mini 4 is outfitted with the iPhone 6’s A8 chip (does that mean the iPad mini 4 has 1GB of RAM and not two gigs like the iPad Air 2?).

Assuming Apple hasn’t modified the A8 for the iPad mini 4 aside from tweaking the clock frequency, the tablet should offer iPhone 6-class, or marginally better, speed when running apps and games, multitasking and more.

In terms of numbers, the A8 offers sixty percent faster graphics and thirty percent faster CPU than the A7 chip inside the original iPad Air. While impressive, that still comes bellow the iPad Air 2 whose modified A8X chip brings two and a half times faster graphics and a forty percent CPU bump over the A7.

It’s replaced iPad mini 3

No surprises here.

Given the modest improvements and Apple’s complex iPad lineup, the iPad mini 4 has taken the place of its predecessor while the iPad mini 2 got discounted to $269.

The full iPad lineup is now comprised of the following tablets:

iPad mini 2 — starts from $269

iPad mini 4 — starts from $399

iPad Air — starts from $399

iPad Air 2 — starts from $499

iPad Pro — starts from $799

The iPad mini 4 is definitely a tougher sell than the now discounted iPad mini 2.

At $399, it will set you back the same amount as the iPad Air, which despite sharing the same hardware as the new mini sports a bigger 9.7-inch screen. If money and not portability is a priority for you, chances are some of you will opt for the iPad Air over the iPad mini 4.

Faster wireless

In addition to the faster A8 chip, the iPad mini 4 includes an enhanced wireless subsystem. Wi-Fi got bumped from the 802.11an standard to three times faster 802.11ac capable of achieving a theoretical throughput of 866 Mbps.

Cellular iPad mini 4 models now run on more cellular networks than before, including CDMA Rev. A and B ones, support a total of 20 LTE bands and offer up to fifty percent faster cellular connectivity at 150MBps.

Both the new iPad mini and the model it’s replaced support 2.4 GHz and 5 GHz bands and use MIMO technology for improved reception. The device also includes the latest in Bluetooth networking, Bluetooth 4.2.

The discontinued iPad mini 3 used the previous-generation Bluetooth 4.0.

Interestingly enough, both the iPad Pro and new iPhones have been upgraded to Bluetooth 4.2 but not the new Apple TV—it runs Bluetooth 4.0. The sixth-generation iPod touch is the first Apple device to have adopted Bluetooth 4.2.

Apple is now a promoting member of Bluetooth SIG and has voting rights, meaning it can, and will, influence the direction and pace of Bluetooth development.

In addition to improved power efficiency and stronger security and privacy, Bluetooth 4.2 delivers 2.5 times better data transfer speeds and claims nearly ten times the data capacity of the previous generation.

Lower-capacity battery

Apple rates the iPad mini 4 with the same ten-hour battery life like every other iPhone model to this date. However, it’s worth pointing out that the iPad mini 4 achieves the same run time with a smaller-capacity 19.1-watt-hour (WHr) rechargeable lithium-polymer battery versus the iPad mini 3’s stronger 23.8 WHr package.

Better iSight shooter

The front-facing FaceTime camera on the iPad mini 4 is largely unchanged.

It’s still a paltry 1.2-megapixel shooter with 720p video capture, but now with Burst mode and improved low-light performance stemming from an improved sensor with larger pixels and the use of a larger ƒ/2.2 aperture that lets in 81 percent more light.

The iSight shooter out the back is much more interesting: it’s gone from five to eight megapixels so iPad mini 4 owners can capture more detail in photos.

In addition to the megapixel bump, the iSight camera packs in an improved sensor and benefits from the A8’s enhanced image signal processor with improved face-detection technology that keeps smaller faces in focus and produces cleaner, sharper images.

Like its predecessor, the iPad mini 4 shoots video in 1080p and is capable of Time-Lapse, Panoramas (up to 43 megapixels), Slo-Mo videos at 120 frames per second  and Burst images (ten images per second), in addition to the usual photo and video modes.

It supports side-by-side iOS 9 apps

Despite its smaller canvas, Apple says the iPad mini 4 supports new multitasking modes in iOS 9: Slide Over, Split View and Picture in Picture.

It might have 2GB of RAM It doesn’t fit iPad mini 3 cases

Due to the switch to an iPad Air-like design and a thinner, slightly taller appearance, existing cases for the third-generation iPad mini won’t fit the new tablet.

If you’re in the market for a case for your iPad mini 4, check out Apple’s redesigned Smart Covers and Silicone Cases designed just for the iPad mini 4 and available in a range of new colors, or wait a little until third-party cases hit.

Summing up

Despite nearly a dozen hardware improvements, most of them minor, evolutionary improvements, the iPad mini 4 received little to no love at Apple’s event yesterday.

Provided in the same Silver, Space Gray and Gold finishes like before, the iPad mini 4 is available now from the Apple Online Store and other outlets.

The tablet is priced at $399/$499/$599 for the 16GB/64GB/128GB Wi-Fi-only models. Wi-Fi + Cellular editions are an extra $130.

Satellite Data Maps Sea Floor’s Hidden Depths

While many detailed maps exist of Earth’s continents, what lies beneath our planet’s waters has remained somewhat of a mystery. So far, only 10 percent of the seafloor has been mapped at high resolution, leaving researchers pretty eager to know what’s going on in that other 90 percent.

Well now, researchers at Scripps Institution of Oceanography at UC San Diego are painting in the rest of the picture. Harnessing never-before-used satellite altimeter data from the European Space Agency’s (ESA) CryoSat-2 and NASA’s Jason-1, the scientists have created stunning maps of Earth’s entire seafloor, bringing to light mountains and ridges that have never before been charted. The maps give the researchers a new understanding of deep ocean plate tectonics and little-studied ocean basins.

The vibrant images of these underwater landscapes were crafted by measuring gravity at various parts of the ocean. According to lead researcher David Sandwell, both the satellites are tasked with capturing the Earth’s gravity field over the oceans.

“The satellites orbit the earth and sends out thousands of radar pulses a second,” Sandwell, a geophysics professor at Scripps. tells Popular Science. “So we use that data to generate a topography of the ocean’s surface.” That topography highlights subtle variations and bumps in the oceans’ waters, telling a lot about the surface underneath. For example, if the ocean is slightly raised at one point, it serves as an indication of a larger object below.

“Let’s say you have a volcano on the ocean floor that is 2,000 meters tall,” Sandwell explains. “It has extra mass associated with it, and it will perturb the gravity field locally. That perturbation is expressed in the sea surface as a bump.” By mapping out all the bumps and indentions in the water, the researchers had a pretty good snapshot of the variations in the Earth’s crust.

In order to determine how much underwater mass was associated with a surface bump, the researchers developed a scientific model using the laws of gravity, calibrated by actual measurements taken by survey ships. These ships, which are responsible for mapping the 10 percent of the ocean’s floor that’s been mapped so far, use specialized sonar systems called multibeam echo sounders to acquire detailed depth information of the seafloor.

Indian Ocean Triple Junction

A gravity gradient model of the Indian Ocean Triple Junction.

Sandwell notes that their maps improve upon seafloor images from the 1990s, which were created using older satellite imagery. While those images revealed many ridges, transform faults, and fracture zones that had never been seen before, they only captured areas of the seafloor that were relatively young and didn’t have much sediment cover. These most recent maps highlight areas of the underwater surface that are much older, where thicker sediment cover has made the areas a lot more dense.

Along with providing the researchers with a better understanding of the waters’ uncharted depths, Sandwell says these maps will be useful tools for the military when it comes to handling their underwater technology. “When you launch a missile from a submarine, its launch characteristics are going to be perturbed by the gravity field,” Sandwell explains. “It’s going to affect the initial takeoff angle of the missile, so you have to correct for that. The military and even some civilian people need this gravity model to do corrections to their underwater sensors.”

But most significantly, Sandwell says it’s important for us to know in detail what lies beneath our oceans’ surfaces. His dream is for the entire seafloor to be mapped at high resolution.

“That 10 percent of high resolution that’s been mapped – it’s about the same resolution of what we have with maps of Mars and Mercury,” Sandwell says. “We know more about these other planets than we know about the sea floor. We need to try to make high resolution maps everywhere.”

The researchers published their findings in the journal Science.

A Therapist Speaks 4 Myths And Four Facts About Lithium Therapy.

What is Lithium Therapy?

Amongst some of the extensively used and researched treatments is lithium (Eskalith, Lithobid) for bipolar illness. When lithium is utilized, mania is less intense and happens less frequently. Additionally, it could help with the management or avoidance of bipolar depression.

According to research, lithium can considerably lower suicide risk. Additionally, lithium helps to avoid subsequent manic and depressive episodes. Thus, one can be recommended as a maintenance medication for extended periods.

Is Lithium a Dangerous Medication?

Lithium toxicity may be hazardous if the dose is too high. A large dosage might be lethal in rare cases. You should specify who is in charge of monitoring the care plan. You should encourage folks to attend monitoring appointments.

Lithium’s Common Adverse Effects Include

Shaky hands, heightened thirst, and Urination has increased. Diarrhea, vomiting, and other symptoms Gaining weight, Memory impairment, Inability to concentrate, Muscle weakness, drowsiness, Hair thinning, Acne, Thyroid function is impaired (which can be treated with thyroid hormone) Four myths and four facts about Lithium Treatment

Myth 1: Lithium Works Instantly

Lithium does not function immediately. This treatment must be initiated gradually, and a certain level of this medicine in the blood must be achieved.

It may not work if the amount of lithium in your body is too low, and it could be hazardous if it is too high. Even once the precise lithium dose is obtained, this drug may take one to four weeks to act fully.

Fact 1: The Most Frequent use of Lithium is to Cure Bipolar Disorder.

Mania, or the higher-energy state of bipolar illness characterized by excessive euphoria or irritation associated with racing thoughts, quicker speech, a lack of desire for sleep, and impulsivity, is one use.

Another application is “maintenance treatment.” It indicates that lithium helps people avoid future manic and depressive episodes by keeping their mood steady and avoiding significant mood disruptions.

Lithium has also been demonstrated to lessen suicidal thoughts and actions. It is also occasionally administered as part of the treatment for patients who have been diagnosed with depression or schizophrenia.

Myth 2: Lithium is More Potent and Hazardous than other Psychotropic Medications. Fact 2: You Should get Laboratory Tests Before and After Taking Lithium.

Lithium testing is essential to your physical and mental health before and throughout lithium medication. Because this medication may affect your kidneys and thyroid, your doctor will want to know how well they are functioning before starting treatment. You will also be examined for changes in kidney and thyroid function throughout therapy.

Lithium can contribute to weight gain, so your doctor will weigh you before starting therapy. Your doctor will also evaluate you for high cholesterol, high-fat levels, and prediabetes or diabetes. These test findings enable your doctor to estimate your risk of beginning the medicine.

Myth 3: We Understand how Lithium Works.

Lithium is a complicated substance, and no one knows how it functions in the body. We currently know that lithium influences the transport of sodium (an element in the body) through neuron and muscle cells, can modify levels of neurotransmitters, or chemical messengers in the body, such as serotonin and dopamine, and can impact the way neurons receive and send information.

Fact 3: Lithium Can Impact Your Sense of Awareness and Alertness

During her June 2023 hearing, Spears stated that she disliked lithium because it made her feel “drunk.” While feeling intoxicated while taking lithium is unusual, it might affect how alert and aware you feel. Lithium might make you tired and less cognitively alert, even at the recommended amount.

However, if you become tired and disoriented while taking lithium, this might indicate that your dose is too high and you’re suffering from lithium toxicity. Lithium poisoning symptoms include tremors, slurred speech, muscular weakness, and stomach troubles such as vomiting and diarrhea. If you have any of these symptoms, get medical attention immediately to have your lithium levels evaluated.

Myth 4: If Bipolar Disorder isn’t Adequately Treated, Switch Medications immediately.

Speak with your doctor if you believe your current prescription is not adequately treating your symptoms. Slowing down is the greatest method to make improvements. It might involve gradually adjusting a medicine’s dose, discontinuing a medication progressively, or gradually introducing a different drug (or a mix of these) – the essential word here is “slowly.”

Fact 4: Long-term Lithium use is Safe.

Spears stated during her June 2023 hearing that lithium should not be administered for more than five months, which is incorrect.

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