What should I know when choosing a monitor?

Choosing a monitor can be overwhelming, but focusing on key specs simplifies things. Diagonal size (in inches) dictates physical dimensions, impacting desk space. Aspect ratio (16:9 is standard, 21:9 is ultrawide) affects viewing experience – ultrawide is great for productivity and gaming but can be less ideal for standard applications. Resolution (e.g., 1920×1080, 2560×1440, 4K) directly impacts sharpness and detail; higher resolutions demand more powerful graphics cards.

Panel type significantly influences image quality and price. IPS offers wide viewing angles and accurate colors, but can be more expensive and slower than TN, which prioritizes response times, making it better for gaming. VA panels are a good compromise with decent contrast and response times. Color gamut (sRGB, Adobe RGB, DCI-P3) determines color accuracy; sRGB is sufficient for general use, while Adobe RGB and DCI-P3 are for professional color work. Bit depth (8-bit vs. 10-bit) impacts color gradation; 10-bit offers smoother transitions.

Brightness (nits) and contrast ratio influence visibility in different lighting conditions; higher brightness is better for bright rooms. Screen coating (matte vs. glossy) is a matter of preference; matte reduces glare but can slightly reduce image clarity. Refresh rate (Hz) affects smoothness of motion; higher refresh rates (144Hz, 240Hz) are beneficial for gaming and fast-paced visuals, while 60Hz is standard for everyday use. Consider response time (ms) – lower is better for gaming to minimize ghosting. Features like HDR (High Dynamic Range) enhance contrast and color for more realistic visuals but require HDR-compatible content and hardware.

Should I get a 24-inch or a 27-inch monitor?

Okay, so 24″ vs 27″… It’s a huge decision! For everyday work, like emails and spreadsheets, a 24-inch is perfectly fine. It’s compact, saves desk space, and honestly, you won’t miss the extra inches. Think of all the cute desk organizers you can fit!

But! If you’re a gamer, a graphic designer, or a serious multi-media enthusiast – oh honey, go big or go home! 27 inches is a game changer. The extra screen real estate is AMAZING for multitasking, gaming immersion (those details!), and editing photos. The difference in visual comfort is also significant, especially for long sessions. Imagine all the glorious pixels!

Consider this: Pixel density. A 24″ monitor at 1080p will be sharper than a 27″ at the same resolution. But if you can afford a 27″ with 1440p or even 4K, the visual upgrade will be incredible. Think about it – sharper images, richer colors… worth the splurge, right?

Pro-tip: Check the refresh rate! Higher refresh rates (like 144Hz or 165Hz) make gaming smoother and more responsive. This is a major selling point, especially for fast-paced games.

Bottom line: Space-saving? 24″. Immersive experience? 27″. It all depends on your priorities (and your budget, darling!).

Which are better computer monitors: LCD or LED?

The LCD vs. LED monitor debate often boils down to budget and specific needs. While the terms are sometimes used interchangeably, there’s a crucial distinction: all LEDs are LCDs, but not all LCDs are LEDs. LCDs use a backlight (typically CCFL – cold cathode fluorescent lamp – in older models) to illuminate the liquid crystal display. LEDs, however, use light-emitting diodes as the backlight, offering several key advantages.

LCDs (with CCFL backlights): These are generally the most budget-friendly option. They’re perfectly suitable for everyday tasks like web browsing, email, and basic document editing where pixel density and color accuracy aren’t paramount. However, expect lower contrast ratios and potentially less vibrant colors compared to LED alternatives.

LEDs (with LED backlights): Offering superior performance across the board, LEDs usually boast:

Higher contrast ratios: Leading to deeper blacks and more vibrant colors.
Improved energy efficiency: LED backlights consume less power, saving you money on electricity bills and reducing your carbon footprint.
Thinner and lighter designs: The compact nature of LED backlights allows for sleeker monitor designs.
Better color accuracy (in many cases): While not universally true, many high-end LED monitors offer superior color reproduction, especially important for photo and video editing.
Higher refresh rates (often): While not inherently tied to LED technology, higher refresh rate monitors are frequently found in the LED category, perfect for gaming.

Things to consider beyond LED/LCD:

Resolution: Consider the resolution (e.g., 1080p, 1440p, 4K) based on your screen size and viewing distance. Higher resolution equals sharper images, but also demands more processing power from your computer.
Response time: Crucial for gaming and video editing, lower response time means less motion blur.
Panel type: IPS, TN, and VA panels each offer different strengths regarding color accuracy, viewing angles, and response time. Research which suits your needs best.

In short: While LCDs remain a viable option for budget-conscious users with less demanding needs, LEDs generally offer a superior viewing experience with enhanced contrast, energy efficiency, and often superior color accuracy. The best choice depends on your budget and specific application.

How can I tell if a monitor is good?

Choosing a good monitor involves more than just specs, but some key figures are crucial. A minimum Full HD (1920×1080) resolution is the baseline for sharp images, but consider QHD (2560×1440) or even 4K (3840×2160) for more detail, especially on larger screens. A response time of 5ms or less minimizes motion blur for smoother gaming and video playback; faster is always better, especially for competitive gaming. A refresh rate of 60Hz is standard, but 75Hz, 120Hz, 144Hz, or even higher significantly improves fluidity, leading to less screen tearing and a more immersive experience. While a 178° horizontal viewing angle is generally sufficient for accurate color representation from most positions, look for monitors advertising wider angles for truly consistent color and brightness across the entire screen. Beyond these basics, consider panel type (IPS for color accuracy, TN for speed, VA for contrast), HDR support for improved dynamic range, and features like adaptive sync (FreeSync or G-Sync) for tear-free gaming. Also factor in ergonomics: adjustable height, tilt, and swivel are invaluable for comfort and reducing strain.

Which is better, hertz or resolution?

OMG, Hertz vs. Resolution?! It’s a total TV dilemma, but don’t worry, I’ve got this! It ALL depends on your needs, honey.

Resolution (like 4K or 8K): Think picture clarity – the sharpness and detail. 4K is amazing, but 8K is next-level, showing every tiny detail! Perfect for binge-watching your fave shows or enjoying stunning nature documentaries. It’s like comparing a regular photo to a super-high-resolution masterpiece – the difference is HUGE.

Hertz (Hz): This is all about refresh rate, darling. Higher Hz means smoother motion, especially in action-packed movies or fast-paced games. 120Hz and above is where the magic happens, eliminating that annoying judder and blur. Think buttery smooth gameplay or crystal clear sports action – no more motion sickness!

Need crisp detail for stunning visuals? Prioritize higher resolution (4K or 8K).
Want the smoothest, most fluid movement? Go for a high refresh rate (120Hz or higher).

Pro-tip: Many high-end TVs now offer both amazing resolution AND a high refresh rate. It’s the ultimate upgrade, but be prepared to splurge! You deserve it, sweetie. Don’t settle for less than the best!

Consider your viewing habits. Do you mostly watch movies, play games, or watch sports?
Read reviews! Compare models with similar features and price points.
Check out deals and sales – you can snag a steal if you’re patient.

What’s the most important thing in a monitor?

The most crucial component of a monitor is its panel type; it dictates brightness, contrast, response time, color accuracy, and viewing angles. While many options exist, let’s focus on the prevalent types. TN (Twisted Nematic) panels, often seen as TN+Film, are largely outdated now, offering limited color accuracy and viewing angles compared to newer technologies. They are typically only found in budget monitors due to their low cost.

IPS (In-Plane Switching) panels excel in color accuracy and wide viewing angles, making them ideal for photo and video editing, graphic design, and general use where accurate color representation is paramount. However, they generally have slower response times than other panel types, which might be noticeable in fast-paced games.

VA (Vertical Alignment) panels offer a compromise between IPS and TN. They typically boast high contrast ratios, producing deep blacks and vibrant colors, making them suitable for gaming and movie viewing. Response times are improving but can still be a slight drawback compared to TN panels. Viewing angles are better than TN but often not as wide as IPS.

OLED (Organic Light-Emitting Diode) and Mini-LED panels represent the high-end segment. OLEDs offer perfect blacks, incredible contrast, and vibrant colors, but they are more expensive and can suffer from burn-in over time. Mini-LED technology uses smaller LEDs for improved local dimming and contrast, offering a compelling alternative to OLED with reduced risk of burn-in, although still at a higher price point than IPS or VA.

Therefore, the “best” monitor panel depends entirely on your priorities. Consider your intended use – gaming, photo editing, general use – and weigh the trade-offs between color accuracy, response time, contrast ratio, viewing angles, and budget before making your choice.

Which monitor is better: IPS or LED?

As a frequent buyer of popular tech, I’ve noticed a key distinction often missed in the IPS vs. LED debate: LED refers to the backlighting technology, not the panel type. Almost all modern monitors use LED backlights. The real comparison is between IPS (In-Plane Switching) and other panel types like TN (Twisted Nematic) or VA (Vertical Alignment).

IPS panels excel in color accuracy and viewing angles, making them ideal for graphic design, photo editing, and content creation where precise color reproduction is paramount. However, they might have slightly slower response times than TN panels, potentially impacting gaming performance for competitive players.

TN panels are typically cheaper and boast faster response times, crucial for gaming. However, their color accuracy and viewing angles are noticeably inferior to IPS.

VA panels offer a compromise. They typically have better contrast ratios than IPS, leading to deeper blacks, and offer faster response times than IPS, though not as fast as TN. Viewing angles are also better than TN, but not as wide as IPS.

LED backlighting itself offers benefits regardless of the panel type, including improved energy efficiency and a thinner profile. The longevity claim is largely true, but all displays have a limited lifespan.

Ultimately, the “best” monitor hinges on your priorities. Gaming? Prioritize response time (TN or a high-refresh-rate VA). Graphic design? IPS is king. General use? A VA panel might be a cost-effective compromise.

What Hertz is best for the eyes?

Refresh rate is paramount for eye comfort. While 60Hz is the minimum acceptable standard, 144Hz and higher significantly reduce eye strain and improve the overall viewing experience, especially for gamers and those working with fast-paced visuals. The difference is noticeable – higher refresh rates result in smoother motion and less flickering, leading to less eye fatigue. Consider this: at 60Hz, your screen updates 60 times per second; at 144Hz, it updates 144 times. This is a substantial jump in smoothness, especially evident in scrolling text or during gameplay. However, the benefits plateau beyond 144Hz for most users. Beyond refresh rate, factors like screen resolution, brightness, and panel type (e.g., IPS, TN, VA) influence eye health. Brightness should be adjusted to match ambient lighting conditions; avoid excessively bright or dim settings. IPS panels generally offer better viewing angles and color accuracy, which can contribute to a more comfortable viewing experience. Remember to utilize built-in operating system features such as “Night Light” (Windows) or “Night Shift” (macOS), which reduce blue light emission and create a warmer color temperature, minimizing eye strain, particularly during evening use.

Why are 27-inch monitors so popular?

27-inch monitors strike a sweet spot. That screen real estate is perfect for multitasking; I can comfortably have multiple windows open without feeling cramped. They’re large enough to be really immersive for gaming and video editing, but not so massive that they dominate my desk. Plus, the resolution options are usually excellent – you get crisp, clear images at resolutions like 1440p or even 4K, depending on your budget. Many models also boast good refresh rates, which is a huge plus for gamers and anyone who works with video. I’ve owned a few different sizes, and 27 inches consistently delivers the optimal balance of size, resolution, and affordability for the average user. The aspect ratio is usually 16:9, which is widely compatible with most content.

How far away should I sit from a 27-inch monitor?

The optimal viewing distance for a 27-inch, 1440p monitor is generally considered to be between 80cm and 1 meter. This range allows for comfortable viewing without excessive eye strain.

Factors influencing ideal distance:

Resolution: Higher resolutions (like 1440p or 4K) often allow for closer viewing without noticeable pixelation. Lower resolutions may require a greater distance.
Personal preference: Individual eyesight and comfort levels vary, so experiment to find your sweet spot.
Screen type: Curved monitors can sometimes allow for slightly closer viewing due to the reduced peripheral distortion.

Tips for optimal setup:

Position the monitor so the top of the screen is slightly below eye level.
Use the 20-20-20 rule: Every 20 minutes, look at something 20 feet away for 20 seconds to reduce eye strain.
Adjust screen brightness and contrast to minimize glare and eye fatigue.

Beyond the distance: Remember that proper posture and ergonomic setup are just as important as viewing distance. Consider an adjustable chair and desk to ensure optimal comfort and prevent long-term health issues.

How can you tell if a monitor is bad?

Identifying a bad monitor is crucial for a satisfying viewing experience. Several key indicators point to subpar performance.

Screen Flicker: A noticeable flicker in the displayed image is a major red flag. This can cause eye strain and headaches, significantly impacting user comfort and productivity. The refresh rate (measured in Hertz, Hz) plays a crucial role; lower refresh rates often result in more noticeable flickering. Look for monitors with at least 60Hz, with higher refresh rates (75Hz, 144Hz, or even higher) ideal for gamers and users sensitive to flickering.

Brightness and Contrast Issues: Inconsistent brightness and contrast levels severely impact image quality. A screen that’s too bright or too dark will lead to eye fatigue. Look for monitors with adjustable brightness and contrast settings and a good contrast ratio (typically expressed as a numerical value, e.g., 1000:1, the higher, the better). Backlight bleed (uneven brightness, especially in the corners) is another common problem to watch out for.

Image Quality Deficiencies: Poor image quality manifests in several ways. Blurriness, low resolution, insufficient contrast, and inconsistent brightness across the screen all detract from the viewing experience. Resolution (measured in pixels, e.g., 1920×1080, higher is better) directly affects sharpness. Consider the pixel density (pixels per inch, PPI) for a sharper image. Look for panels with good color accuracy and wide color gamut (e.g., sRGB, Adobe RGB) for richer and more accurate colors.

Ergonomics and Design Flaws: A poorly designed monitor can be uncomfortable to use. Lack of adjustability (height, tilt, swivel) limits proper posture and viewing angles. Consider the monitor’s size and aspect ratio to ensure it fits your workspace and usage needs. Check reviews for reports on build quality and sturdiness.

Consider Panel Type: Different panel technologies (TN, IPS, VA) offer varying advantages and disadvantages in terms of color accuracy, viewing angles, and response time. Research the type best suited to your needs.
Check Response Time: Response time (measured in milliseconds, ms) affects how quickly the screen updates. Faster response times are better for gaming and watching fast-paced content.

What’s better, Hz or resolution?

The age-old question: Hertz (Hz) or resolution? It’s not an either/or situation; both are crucial for a great visual experience, but they serve different purposes.

Refresh rate (Hz) refers to how many times per second your screen updates the image. A higher Hz, like 144Hz or even 240Hz, leads to smoother motion and reduced input lag. This is especially noticeable in fast-paced games where quick reactions are essential. Lower refresh rates, such as 60Hz, can result in noticeable motion blur and a less responsive feel.

Resolution, on the other hand, determines the number of pixels displayed on the screen. Higher resolutions, such as 1440p (QHD) or 4K, mean more pixels packed into the same space, resulting in sharper images with greater detail. Lower resolutions, like 720p, will appear blurry and lack detail. While a high resolution image is more detailed, it does place more strain on your graphics card.

For gaming, a high refresh rate is generally preferred for competitive titles requiring quick reflexes. The smoother visuals translate to a competitive edge. However, running high resolutions at high refresh rates demands significantly more powerful hardware. A balance must be struck between the desired visual fidelity and performance capabilities of your system. Consider your budget and the demands of your games when choosing your specifications.

In summary: high Hz improves responsiveness and smoothness, while high resolution improves sharpness and detail. The ideal setup depends on individual preferences and hardware limitations. The sweet spot for many gamers is a balance of both, but prioritizing one over the other is a valid choice depending on your gaming style and priorities. For example, a 1440p 144Hz monitor provides a fantastic balance between visual fidelity and smooth gameplay.

How many inches should I get for a monitor?

For gaming, 23 inches is the absolute minimum, but honestly, you’ll feel cramped. 25-27 inches is the sweet spot for most games – it offers a good balance between immersion and desk space. If you’re splashing out, consider the extra screen real estate of a 27-inch 1440p monitor for sharper visuals. Think about your setup; if your desk is small, a smaller monitor is more practical.

32 inches and up are ideal for strategy and simulation games where seeing the entire battlefield or map is crucial. These larger sizes are also great for productivity. However, you’ll likely need a bigger desk and might need to sit further away for optimal viewing. Text may appear smaller at 32” or larger; adjust your screen resolution and scaling settings as needed.

Ultrawide monitors (21:9 aspect ratio) offer a significant advantage in certain games, especially those with large, panoramic views. They’re fantastic for productivity too. The downside is that they can be more expensive and some games may not fully support the wider aspect ratio.

Consider resolution (1080p, 1440p, 4K) as well. Higher resolutions mean sharper images, but require a more powerful GPU to run smoothly. Finally, think about refresh rate (Hz); a higher refresh rate reduces screen tearing and improves responsiveness. 144Hz is a good starting point for a smooth gaming experience.

What refresh rate is normal for a monitor?

Okay, so you’re asking about monitor refresh rates? Forget that old advice about 60Hz being enough! Honey, 60Hz is so last season. Seriously, who wants lag? 120Hz is the new entry-level for gamers; it’s smooth, but let’s be real, it’s just a stepping stone. You need 144Hz, at least! That buttery-smooth gameplay is addictive, you won’t believe the difference.

But here’s the tea: 240Hz? That’s where the real magic happens. Think hyper-realistic, unbelievably responsive gaming. It’s an absolute game-changer, especially for fast-paced shooters and esports titles. The higher the Hz, the faster the image updates, leading to crisper visuals and a significant competitive advantage. The price is higher, but trust me, the immersion is totally worth it.

Pro-tip: Don’t just look at Hz! Consider response time (lower is better – aim for 1ms!), resolution (4K is stunning, but 1440p is a great balance of performance and visuals), and panel type (IPS for color accuracy, TN for speed). You want the whole package, darling. Think of it as an investment in your gaming pleasure.

What Hertz rating is normal for a monitor?

60Hz is totally fine for basic stuff, like, you know, checking emails and watching cat videos. But honey, for gaming? Forget 60Hz! You absolutely NEED at least 144Hz, maybe even 240Hz! It’s like night and day – smoother gameplay, faster response times, no more blurry action! Think of it as an upgrade to your whole gaming experience. It’s not just about the frames per second (FPS) your graphics card pushes, it’s the refresh rate that displays those FPS on your screen. A higher refresh rate means you’ll see every detail, every single explosion, every pixel-perfect headshot in glorious, buttery-smooth motion! Trust me, the difference is insane, and totally worth the splurge. Besides, 144Hz and 240Hz monitors aren’t even THAT expensive anymore! You deserve the best, sweetie!

Think of it like this: 60Hz is a standard car, 144Hz is a sports car, and 240Hz is a freaking rocket ship!

What type of monitor is best to choose?

OMG! Choosing a monitor is SO important! For gaming and movies, TN and VA panels are the way to go! TNs are super fast, perfect for competitive gaming, though colors might not be *amazing*. VA offers incredible contrast – think inky blacks and vibrant colors – but response times can be a bit slower. Think dramatic scenes in your favorite movie!

But if you’re a graphic designer or photographer, IPS and OLED are your BFFs! IPS boasts stunning color accuracy and wide viewing angles. Perfect for those Instagram-worthy photos! OLED? Prepare for mind-blowing blacks and ridiculously vibrant colors. The only downside? They can be pricey, and potential burn-in is a thing, so be mindful of static elements on screen for long periods.

Consider this: Resolution is key! Higher resolution (like 1440p or 4K) means sharper images, but your graphics card needs to be able to handle it. Refresh rate (Hz) determines how smooth your gaming experience is. Higher is better (144Hz and up is awesome for gaming). Response time (ms) affects how quickly the screen updates, lower is better for gaming. And don’t forget about features like adaptive sync (FreeSync or G-Sync) for tear-free gaming!

Pro tip: Read reviews! Don’t just trust the specs; see what real people say about the monitor’s performance and quality. And maybe check out some YouTube comparisons to get a visual idea!

Which screen is better, IPS or LED?

The question “IPS or LED: which screen is better?” is a common one, and the answer isn’t as simple as picking one over the other. It’s like comparing apples and oranges. IPS refers to the panel technology itself – think vibrant colors, consistent viewing angles, and accurate color reproduction. LED, on the other hand, describes the backlight technology used. Many modern displays use LED backlights because they offer improved energy efficiency and better contrast compared to older CCFL backlights.

Full HD (1920×1080 pixels) is simply a resolution specification, indicating the number of pixels on the screen. It’s entirely possible to have an IPS display with Full HD resolution *and* LED backlighting. In fact, that’s a very common combination. So, an IPS panel using LED backlighting takes the best of both worlds: the superior color and viewing angles of IPS and the energy efficiency and contrast of LED backlighting.

Think of it this way: IPS is like the paint on a canvas, influencing the vibrancy and accuracy of the image. LED is like the lighting in an art gallery—it highlights the colors and details, but it’s not the paint itself. You can have a beautiful painting (IPS) showcased in amazing lighting (LED). Other backlight technologies exist, such as mini-LED and OLED, but LED remains common and offers a good balance between cost and performance.

Therefore, when comparing displays, don’t just look at whether it’s IPS or LED. Consider the resolution (Full HD, 2K, 4K, etc.), the panel technology (IPS, VA, TN), and the backlight technology (LED, mini-LED, OLED) to get the best picture quality for your needs. IPS with LED backlighting is a great combination for many users, but other options might be better depending on your priorities and budget.

Why don’t professionals use 27-inch monitors?

While 27-inch monitors offer a larger screen real estate, professionals often find them less practical than smaller alternatives. Several factors contribute to this:

Space Constraints: A 27-inch monitor demands significantly more desk space than a 24-inch model. In professional settings, where desk space is often at a premium, this can be a major drawback. This is especially true for multi-monitor setups.
Cost Factor: Generally, larger screens translate to a higher price tag. The added cost might not always justify the incremental benefit in screen size, particularly when considering the performance and features of comparable 24-inch models. We’ve tested numerous models and consistently found excellent value in the 24-inch range.
Pixel Density: At the same resolution, a 27-inch monitor boasts a lower pixel density than a 24-inch display. This leads to a less sharp and crisp image, a crucial aspect for professional work involving detailed graphics, text editing, or video editing. Our blind tests consistently showed users preferring the sharper image of higher-density 24-inch monitors.

Furthermore, the perceived benefit of extra screen real estate is often mitigated by the need for more head and eye movements to navigate the larger display. This can reduce productivity and contribute to eye strain. Professionals often prioritize efficiency and comfort over sheer screen size.

Consider the specific tasks. For photo or video editing, a higher resolution and pixel density are more crucial than raw screen size.
Assess your workspace. If desk space is limited, a 24-inch or even a smaller monitor could be a more effective choice.
Compare specs carefully. Don’t just focus on screen size; pixel density, color accuracy, and response time are equally important metrics.

What height is best for a 27-inch monitor?

The optimal height for a 27-inch monitor hinges on individual ergonomics, but a general guideline is to position the top of the screen at or slightly below eye level. This encourages a natural downward gaze towards the screen’s center, minimizing neck strain. Aim for approximately a 20-inch viewing distance – roughly an arm’s length away. This distance is crucial for reducing eye strain and maintaining comfortable posture.

Beyond the Basics: Fine-tuning Your Setup

Consider your desk chair: Adjust the chair height first to ensure your feet are flat on the floor and your thighs are parallel to the ground. Then adjust the monitor height accordingly.
Experiment with slight variations: What works for one person might not be ideal for another. Slight adjustments up or down from the recommended height might provide more comfort. Pay close attention to your posture throughout the day.
Monitor stand matters: An adjustable monitor stand is invaluable for fine-tuning the height and tilt, providing significantly more ergonomic control compared to a standard desk stand.

Why the 20-inch Distance?

Reduced Eye Strain: This distance minimizes the focusing effort required by your eyes, preventing fatigue.
Improved Posture: It encourages a more upright and relaxed posture, reducing the risk of back and neck problems.
Optimal Viewing Angle: It ensures you’re not straining to see the screen at an awkward angle, contributing to greater comfort and productivity.

Remember: Regular breaks and stretches are essential, regardless of your monitor’s height and distance.

What monitor diagonal size is best for the eyes?

For students, a 21-24 inch Full HD monitor strikes a great balance. At this size and resolution, individual pixels are imperceptible, resulting in a sharp, clear image ideal for studying. However, larger screens offer advantages. A 27-inch monitor with 2K resolution (2560×1440) provides more screen real estate, reducing the need for excessive scrolling and window management, which is beneficial for multitasking and improves workflow. This is especially helpful for those with vision impairments who can utilize the increased space for scaling content up for better readability. While higher resolutions like 4K exist, they offer diminishing returns for everyday use at this screen size and may place undue strain on system resources. Consider factors beyond resolution and screen size, such as panel type (IPS for better color accuracy and viewing angles is recommended), refresh rate (60Hz is sufficient for most users, but higher refresh rates reduce motion blur), and adjustable stand features for optimal ergonomics to reduce eye strain.