Utilizing Apple Watch Motion Sensors for MacBook Webpage Scrolling

1. Introduction: The Quest for Seamless Device Interaction

The modern digital landscape is characterized by an increasing demand for fluid and intuitive interactions between personal computing devices. Users within the Apple ecosystem, in particular, have come to expect a high degree of integration and seamless functionality across their iPhones, iPads, Macs, and Apple Watches. This expectation naturally extends to the realm of input methods, driving exploration into novel ways of controlling devices. One such area of interest is the potential for leveraging the advanced sensor capabilities of wearable technology, such as the Apple Watch, to enhance the user experience with other devices in the ecosystem. This report investigates the specific query of whether the accelerometer and gyroscope within an Apple Watch can be effectively utilized to enable scrolling on webpages viewed on a MacBook. By examining official Apple features, exploring third-party solutions, and delving into the technical feasibility and user experiences associated with such an endeavor, this analysis aims to provide a comprehensive understanding of the current possibilities and limitations.

2. Official Apple Features and Support: A Native Solution?

• 2.1 Universal Control and Sidecar: Bridging the Gap

Apple offers several features designed to enhance the interoperability between its devices. Universal Control, introduced in macOS Monterey 12.4 and later 1, allows users to employ a single keyboard and mouse or trackpad across multiple nearby Mac and iPad devices signed into the same Apple Account 1. This functionality enables seamless control of up to two other devices, facilitating tasks like moving the pointer, typing, and even copying content between them 1. Similarly, Sidecar provides the capability to use an iPad as an extended or mirrored display for a Mac 1. While these features streamline the interaction between Macs and iPads, their focus lies in extending the reach of traditional input methods or augmenting display capabilities rather than introducing motion-based control from an Apple Watch to a MacBook. The design of Universal Control centers around the established paradigms of keyboard, mouse, and trackpad input, enabling users to work across devices with familiar gestures and controls 1. Therefore, while these features contribute to a more integrated Apple experience, they do not inherently address the possibility of using the Apple Watch’s motion sensors for direct scrolling manipulation on a MacBook.

• 2.2 Accessibility Features: Control Nearby Devices

The Apple Watch includes accessibility features that allow users with motor skill limitations to interact with their devices in alternative ways. Among these is the “Control Nearby Devices” feature, which enables an Apple Watch to control certain functions of a paired iPhone or iPad 3. Interestingly, this functionality extends to controlling a MacBook as well, provided all devices are signed into iCloud with the same Apple ID and are on the same network. When activated, the Apple Watch displays a set of buttons that mirror controls on the connected MacBook, including options for the Home button, App Switcher, Notifications Center, Control Center, Siri, and a customizable “Options” menu that can include media playback controls and hand gestures. While this feature establishes a communication pathway for the Apple Watch to influence a MacBook’s operation, it operates through a predefined set of on-screen controls on the watch that trigger specific actions on the Mac. It does not inherently translate the continuous motion data from the watch’s accelerometer and gyroscope into a direct scrolling input on the MacBook’s display. The gestures recognized within this feature are primarily for navigating the watchOS interface, and these are then translated into corresponding actions on the MacBook, representing a form of remote command rather than continuous motion-based control for scrolling 3.

• 2.3 Accessibility Features: AssistiveTouch

AssistiveTouch on the Apple Watch offers another suite of accessibility options, allowing users to interact with the device through hand gestures and a motion pointer 5. This feature utilizes the Apple Watch’s built-in sensors to recognize gestures like taps, double taps, clenches, and double clenches, which can be customized to perform various actions within watchOS 5. Furthermore, AssistiveTouch includes a motion pointer that appears as a circle on the Apple Watch screen and can be controlled by tilting the watch 5. This motion pointer allows users to navigate and select items on the watch display through subtle wrist movements 6. Within the AssistiveTouch action menu on the watch, there is also an “Autoscroll” option that enables scrolling through content on the watch screen using hand gestures 5. Notably, AssistiveTouch gestures can also be used in scenarios requiring a double-click of the side button, such as unlocking a paired Mac 5. While AssistiveTouch demonstrates the Apple Watch’s capability to interpret motion and gestures for device interaction and even for specific actions on a paired Mac, its primary focus is on controlling the watchOS environment 6. There is no direct indication within the official documentation that the motion pointer or the Autoscroll feature are designed to translate the watch’s tilt or other motion into continuous scrolling of content displayed on a MacBook’s screen. The motion pointer controls the watch’s interface, and the Autoscroll function pertains to scrolling within watchOS applications 5.

• 2.4 Accessibility Shortcut

The Apple Watch provides an Accessibility Shortcut, a convenient feature that allows users to quickly turn frequently used accessibility features on or off by triple-clicking the Digital Crown 4. This shortcut can be configured to toggle features such as AssistiveTouch and Control Nearby Devices, offering quick access to these functionalities 4. However, the Accessibility Shortcut itself does not introduce any new methods for using the Apple Watch’s motion sensors for scrolling on a MacBook. Instead, it serves as a user-friendly way to manage the availability of existing accessibility features.

• 2.5 macOS Accessibility Features

macOS incorporates a comprehensive suite of accessibility features designed to assist users with various needs related to vision, hearing, mobility, and speech 7. For users with mobility challenges, macOS offers features like Voice Control, which allows navigation and interaction using spoken commands; Switch Control, enabling control through adaptive switches or other assistive devices; Head pointer, which uses the Mac’s camera to track head movements for pointer control; and Mouse Keys, allowing pointer control via the keyboard 7. While these features provide alternative input methods for macOS, they do not natively integrate with the Apple Watch’s motion sensors to facilitate scrolling 7. The Head pointer relies on the MacBook’s built-in camera, and Switch Control is designed for external, specialized hardware 10. Therefore, the current macOS accessibility features do not offer a direct solution for using the Apple Watch’s accelerometer and gyroscope for webpage scrolling.

3. Third-Party Solutions: Applications and Software

• 3.1 Remote Mouse

Several third-party applications aim to extend the functionality of mobile devices as remote controls for computers. Remote Mouse is one such application that transforms an iPhone or iPad into a wireless mouse, keyboard, and touchpad for a Mac or Windows PC 11. A notable feature of Remote Mouse is its “Gyro mouse” functionality, which utilizes the gyroscope sensor in the phone or tablet to allow users to move the computer’s mouse cursor by physically moving their mobile device in the air 11. While the text descriptions of Remote Mouse primarily focus on iPhone and iPad control, a YouTube video 14 showcases an application, potentially Remote Mouse or a similar tool, that demonstrates control of a MacBook from an Apple Watch. This video illustrates the ability to move the mouse cursor, input text via a keyboard interface on the watch, launch applications on the Mac, and, significantly, scroll through content on a webpage by interacting with the side of the Apple Watch screen 14. Although the video does not explicitly detail whether this scrolling mechanism relies on the watch’s accelerometer or gyroscope for continuous motion input, it strongly suggests that third-party applications have explored and implemented scrolling control of a MacBook initiated from the Apple Watch interface.

• 3.2 Mobile Mouse Remote

Mobile Mouse Remote is another application that aims to provide comprehensive remote control capabilities for Mac and Windows computers using iPhones, iPads, and Apple Watches 15. This app offers various functionalities, including transforming the mobile device into a wireless trackpad and an “air mouse” that uses the motion of the user’s hand (presumably with the phone) to control the computer’s cursor 15. The accompanying Apple Watch application includes a trackpad interface that provides full mouse control and scrolling capabilities directly from the user’s wrist 15. However, it is important to note that the trackpad feature on the Apple Watch within Mobile Mouse Remote does not support multi-touch gestures. This limitation suggests that scrolling on the MacBook via the Apple Watch interface is likely achieved through swiping gestures on the watch screen’s trackpad area rather than through the direct interpretation of motion data from the watch’s accelerometer or gyroscope for continuous scrolling of the MacBook’s content. While an “air mouse” feature exists, it is associated with the phone’s motion rather than the watch 15.

• 3.3 Remote Buddy

Remote Buddy is a Mac application designed to allow users to control their computers using various remote controls, including iPhones, iPads, the Siri Remote, and potentially Apple Watches 17. This application supports a wide range of Mac applications and offers a customizable menu system for controlling various functions 17. Remote Buddy provides trackpad functionality for iPhones and iPads, enabling users to move the mouse pointer, click, drag, and scroll on their Macs using the touchscreens of their iOS devices 17. While Remote Buddy has companion applications for iOS and tvOS 18, the provided information does not explicitly mention the use of the Apple Watch’s accelerometer or gyroscope for controlling scrolling on a MacBook. The focus of Remote Buddy’s Apple Watch integration appears to be more on providing remote control for specific applications and functions through the watch interface rather than leveraging its motion sensors for continuous scrolling input on the Mac’s screen.

• 3.4 FullControl: Remote for Mac

FullControl is an application designed to turn an iPhone or iPad into a remote control for a Mac, offering features such as a remote trackpad, keyboard, and the ability to launch applications and control media playback 19. The remote trackpad functionality implies that users can control the mouse cursor and potentially scroll on their Mac by interacting with the touchscreen of their iPhone or iPad 19. However, the provided snippets do not indicate the existence of an Apple Watch application for FullControl, nor do they mention any functionality that utilizes the Apple Watch’s accelerometer or gyroscope for controlling the MacBook. One user review 19 notes difficulties with scrolling on the remote trackpad, suggesting that even touch-based scrolling via a companion iOS app might not always be seamless.

• 3.5 Other Potential Apps

Beyond the specifically mentioned applications, the research material alludes to the existence of other remote control apps that may offer some level of Apple Watch integration 15. For instance, Mobile Mouse Remote and Ctrl ~ A Remote for your Watch are listed as apps with Apple Watch functionality 24. Additionally, Rowmote Pro for Mac and Computer Mouse: Remote Control are mentioned as alternative options 15. However, the provided information lacks specific details regarding whether these other applications utilize the Apple Watch’s motion sensors for webpage scrolling on a MacBook. Determining the capabilities of these apps would necessitate further investigation.

Table 1: Third-Party Applications for MacBook Control via Apple Watch

| App Name | Apple Watch Support | Scrolling Mechanism (Mentioned) | Motion Sensor Use (Explicitly Stated) | Notes | | Remote Mouse | Yes (Likely) | Side of Apple Watch screen | Gyro mouse (phone/tablet) | Video evidence suggests scrolling from Apple Watch interface, but motion sensor use for watch scrolling is not confirmed in text. | | Mobile Mouse Remote | Yes | Trackpad on Apple Watch | Air mouse (phone) | Apple Watch app has a trackpad with scrolling (likely via touch), but no multi-touch. | | Remote Buddy | Yes (Likely) | Trackpad scrolling (iPhone/iPad) | No | Focus on comprehensive remote control; no explicit mention of watch motion for scrolling. | | FullControl | No (Not Mentioned) | Remote trackpad scrolling | No | Uses iPhone/iPad as a remote trackpad; no Apple Watch support mentioned. |

4. User Experiences and Community Insights

• 4.1 Online Forum Discussions

Online forums and communities often serve as valuable sources of information regarding user experiences and workarounds for desired functionalities. Discussions within Apple’s support forums and on platforms like Reddit reveal user interest in customizing scrolling behavior on macOS, particularly concerning the independent control of scroll direction for mice and trackpads 25. Users express frustration with the unified “Natural scrolling” setting in macOS, which applies to both input devices simultaneously, leading to an inconsistent experience depending on the device being used 25. To address this limitation, users frequently mention and recommend third-party tools such as Scroll Reverser, UnnaturalScrollWheels, and MOS, which allow for independent scroll direction settings 25. A Reddit thread specifically discusses applications for achieving smooth scrolling with third-party mice on macOS, with MOS and Mac Mouse Fix being popular recommendations 29. These discussions highlight a general user desire for more control over scrolling on macOS beyond the basic settings provided by Apple. The reliance on third-party solutions for fundamental scrolling customization suggests that more advanced or less common scrolling methods, such as motion-based control from an Apple Watch, are unlikely to be supported natively and would likely require dedicated third-party development. Furthermore, some users have reported inconsistencies or issues with the “Natural scrolling” setting reverting unexpectedly after macOS updates 30, indicating potential instability even with built-in scrolling functionalities.

• 4.2 Lack of Direct User Mentions

The provided research material does not contain specific instances of users discussing the successful implementation or use of an Apple Watch’s motion sensors for scrolling on a MacBook. This absence of direct user accounts suggests that this particular functionality is either not widely adopted, not easily achievable with current technology, or that discussions about it are occurring in online communities or forums not included in this research. The lack of readily available information from user experiences further supports the notion that a native solution is not present, and third-party solutions offering this specific capability might be limited in number or still in early stages of development and adoption.

5. Technical Deep Dive: Apple Watch Motion Sensors

• 5.1 Accelerometer and Gyroscope Capabilities

The Apple Watch is equipped with sophisticated motion sensors, including a high-g accelerometer capable of measuring significant forces and a high dynamic range gyroscope designed to accurately detect rotational movement 32. These sensors provide valuable data about the device’s movement in three-dimensional space, enabling a wide range of motion-based experiences within applications running on watchOS, iOS, and iPadOS 33. Even earlier models, such as the Apple Watch Series 1, have been utilized in research settings to record accelerometer and gyroscope signals at frequencies like 50 Hertz for applications such as human activity recognition 34. Apple itself leverages the data from these sensors for various features, including fall detection, crash detection, and accessibility functionalities like AssistiveTouch and Quick Actions, as well as the more recent Double Tap gesture introduced with the Apple Watch Series 9 and Ultra 2 35. These features demonstrate the inherent capability of the Apple Watch’s motion sensors to capture and interpret hand and wrist movements. The sampling rate observed in research indicates a potential for capturing the nuances of motion that might be involved in intentional scrolling gestures.

• 5.2 Precision and Suitability for Scrolling

While the Apple Watch possesses the necessary motion sensors, translating the subtle movements of a wrist into precise and continuous scrolling on a MacBook’s screen presents a considerable technical challenge. Achieving this level of control likely necessitates sophisticated processing of the raw data obtained from the accelerometer and gyroscope. Apple’s Core Motion framework, available on watchOS, provides developers with access to both raw and processed motion data, including device attitude, rotation rate, and device-specific acceleration, with the gravitational component removed 38. This framework could be utilized to develop algorithms for interpreting wrist movements as scrolling commands. However, the accuracy of motion-based control is often dependent on proper calibration, as highlighted by Apple’s guidance on calibrating the Apple Watch for improved accuracy in Workout and Activity tracking 41. Recent updates to Core Motion even allow for streaming higher-frequency sensor data during HealthKit workouts and accessing motion data from AirPods on connected devices like Macs running macOS 14 36. The availability of batched sensor data at higher rates (800Hz for accelerometer, 200Hz for device motion) during workouts indicates the sensor’s potential for capturing fine movements 37. Nevertheless, continuous background access to this high-frequency data for general scrolling purposes might be restricted to optimize battery life and might require specific entitlements, as suggested by the functionalities offered by SensorKit, a framework primarily intended for research studies requiring continuous sensor data collection 43. Therefore, while technically feasible, the development of a system that accurately and consistently translates Apple Watch motion into webpage scrolling on a MacBook would require intricate software engineering to filter out unintentional movements and ensure a smooth and responsive user experience.

6. Developer Perspective: APIs and Customization

• 6.1 Core Motion Framework

The Core Motion framework serves as the primary gateway for developers to access the motion sensor data on Apple devices, including the Apple Watch 38. This framework provides both raw accelerometer and gyroscope readings as well as processed device motion data, which includes information about the device’s attitude, rotation rate, and acceleration relative to the user, with environmental biases like gravity already accounted for 38. This access empowers developers to build custom solutions that leverage the Apple Watch’s motion sensing capabilities. For the specific purpose of enabling webpage scrolling on a MacBook, developers could potentially utilize the Core Motion framework within a watchOS application to capture the user’s wrist movements and then transmit this data to a companion application running on macOS. The challenge lies in creating robust algorithms that can accurately interpret these motion data streams and translate them into precise scrolling commands that seamlessly integrate with the user’s browsing experience.

• 6.2 SensorKit Framework

Apple also provides the SensorKit framework, which allows authorized apps, typically those involved in pre-approved research studies, to access a broader range of sensor data from iPhones and paired Apple Watches 43. This framework can provide access to continuous accelerometer data, which might be beneficial for applications requiring long-term monitoring of motion patterns 44. While SensorKit offers more extensive access to sensor data compared to Core Motion, its primary focus on research applications and the requirement for specific entitlements make it less likely to be the framework of choice for general consumer applications aimed at providing motion-based scrolling on a MacBook.

• 6.3 WatchKit

WatchKit is the designated API for developing applications that run natively on the Apple Watch 45. This framework enables developers to create user interfaces, handle user interactions, and access the watch’s hardware features, including the motion sensors via the Core Motion framework 45. A relevant example 46 demonstrates how WatchKit can be used to build an Apple Watch application that communicates with a paired iPhone to control an external device. This example illustrates the fundamental capability of a watchOS application to interact with the watch’s sensors and transmit data to another platform. In the context of the user’s query, a developer could potentially create a WatchKit application that captures motion data using Core Motion and then sends this data to a companion macOS application. The macOS application would then be responsible for interpreting the received motion data and translating it into scrolling actions within the operating system or specific applications like web browsers. This approach highlights a potential pathway for a custom solution, leveraging the communication capabilities between watchOS and macOS to achieve the desired motion-based scrolling functionality.

7. Challenges and Limitations

• 7.1 Accuracy and Precision

A significant hurdle in using the Apple Watch’s motion sensors for MacBook webpage scrolling is achieving the necessary accuracy and precision. Translating the subtle movements of a user’s wrist into precise scrolling actions on a computer screen is a complex task. The algorithms would need to be highly sophisticated to differentiate between intentional scrolling gestures and the myriad of other natural hand and wrist movements that occur throughout the day. Misinterpretations of these movements could lead to unintended scrolling or a jerky and frustrating user experience. Fine-tuning the sensitivity of the motion detection and potentially incorporating calibration procedures would be crucial, but even with these measures, achieving perfect precision might prove elusive.

• 7.2 Continuous Input and Fatigue

Another potential limitation is the ergonomic aspect of continuous motion-based input. Maintaining a specific wrist posture or performing repetitive movements for extended periods to scroll through long webpages could lead to user fatigue or discomfort. Unlike traditional scrolling methods using a mouse wheel or trackpad, which often involve more relaxed hand positions, relying solely on wrist motion might not be sustainable for prolonged browsing sessions. Users might still require alternative scrolling methods for comfort and convenience during extended use.

• 7.3 Software Implementation Complexity

Developing a robust and reliable software solution that accurately captures, transmits, and interprets the motion data from the Apple Watch for scrolling on a MacBook would be a complex undertaking. This would involve developing applications for both the watchOS and macOS platforms. The watchOS app would need to efficiently access the motion sensor data and potentially perform some initial processing. The macOS application would then need to receive this data, apply sophisticated algorithms to interpret the intended scrolling direction and speed, and translate these interpretations into scrolling commands that work seamlessly within various applications. Ensuring low latency and smooth integration with the operating system’s scrolling mechanisms would add further layers of complexity.

• 7.4 Battery Life

The continuous use of the Apple Watch’s motion sensors and the constant communication between the watch and the MacBook required for real-time motion-based scrolling could potentially have a noticeable impact on the battery life of both devices. Continuously monitoring and transmitting sensor data can be power-intensive. Users might find that relying on this method for extended periods necessitates more frequent charging of their Apple Watch and could also contribute to faster battery drain on their MacBook, especially if the communication occurs wirelessly over Bluetooth or Wi-Fi.

• 7.5 Contextual Awareness

The way users prefer to scroll through content can vary depending on the application they are using or the type of content they are viewing. For instance, scrolling through a long text document might benefit from a different sensitivity or gesture mapping compared to scrolling through a list of items or navigating a visual webpage. A generic motion-to-scroll mapping might not be optimal for all situations. To provide a truly intuitive and efficient experience, the software would ideally need to be context-aware, adapting the scrolling behavior based on the active application or the nature of the content being displayed. Implementing this level of contextual sensitivity would add another layer of complexity to the development process.

8. Alternative Smartwatch Control Methods

• 8.1 Touch-Based Remotes

Instead of relying on motion sensors, many existing applications that allow an Apple Watch to control a MacBook utilize the smartwatch’s touchscreen as a miniature trackpad 15. These apps typically display a virtual trackpad area on the watch face, allowing users to move the computer’s cursor and scroll through content by swiping their finger on the watch screen 15. This method offers a more direct and perhaps more intuitive way to control the cursor and scrolling, as it mimics the familiar interaction of a traditional trackpad. While it doesn’t leverage the motion sensors, it provides a functional alternative for remote control and scrolling from the wrist.

• 8.2 Button-Based Control

As previously discussed, Apple’s built-in “Control Nearby Devices” accessibility feature provides a basic level of remote control over a MacBook using predefined buttons displayed on the Apple Watch screen. These buttons allow users to perform actions like opening the App Switcher, accessing the Notification Center, or controlling media playback. While this method does not offer continuous scrolling, it provides a simple and native way to interact with certain key functions of the Mac without needing to physically touch the computer.

• 8.3 Voice Commands

Another alternative method for interacting with a MacBook using an Apple Watch is through voice commands via Siri. Users can raise their wrist and speak commands to Siri, potentially including instructions to scroll up or down within certain applications that support this functionality through voice control. While the granularity of scrolling control might be limited compared to a mouse or trackpad, voice commands offer a completely hands-free way to navigate and interact with a Mac in specific scenarios.

9. Conclusion and Future Directions

In conclusion, the current landscape indicates that native support for utilizing the Apple Watch’s motion sensors for continuous and nuanced webpage scrolling on a MacBook is limited. While Apple’s accessibility features offer some level of control over a paired Mac, they do not directly translate the continuous motion data from the watch’s accelerometer and gyroscope into a scrolling input for navigating content on the MacBook’s screen. Third-party applications have explored remote control functionalities, with some offering scrolling capabilities initiated from the Apple Watch interface. However, the primary mechanism for scrolling in these apps often appears to rely on touch-based interactions on the watch screen or predefined gestures rather than the continuous interpretation of motion sensor data for scrolling the MacBook’s content.

Technically, the Apple Watch is equipped with the necessary motion sensors, and developer tools like the Core Motion framework on watchOS provide access to this data. This opens the door for the potential development of custom solutions. However, achieving precise, reliable, and energy-efficient motion-based scrolling on a MacBook presents significant technical challenges related to accuracy, user comfort, software complexity, battery life considerations, and the need for contextual awareness.

Looking towards the future, advancements in sensor technology embedded in wearable devices, coupled with more sophisticated machine learning algorithms for interpreting complex motion patterns, could pave the way for more refined and intuitive motion-based control methods across the Apple ecosystem. Improved APIs and greater access to continuous sensor data in a power-efficient manner could also facilitate the development of such features. In the interim, users seeking remote scrolling capabilities for their MacBooks might find that existing touch-based trackpad applications for smartwatches or the use of voice commands via Siri offer more readily available and potentially more reliable solutions for their needs.

Works cited

1. Universal Control: Use a single keyboard and mouse between Mac and iPad - Apple Support, accessed March 30, 2025, https://support.apple.com/en-us/102459
2. View and customize mouse or trackpad gestures on Mac - Apple Support, accessed March 30, 2025, https://support.apple.com/guide/mac-help/use-trackpad-and-mouse-gestures-mh35869/mac
3. Control nearby devices with your Apple Watch - Apple Support, accessed March 30, 2025, https://support.apple.com/guide/watch/control-nearby-devices-apdbf0e78757/watchos
4. The Accessibility Shortcut on Apple Watch, accessed March 30, 2025, https://support.apple.com/guide/watch/the-accessibility-shortcut-apda74993b58/watchos
5. Use AssistiveTouch on your Apple Watch - Apple Support, accessed March 30, 2025, https://support.apple.com/en-us/111111
6. Use AssistiveTouch on Apple Watch, accessed March 30, 2025, https://support.apple.com/guide/watch/assistivetouch-apdec70bfd2d/watchos
7. Mobility - Accessibility - Apple, accessed March 30, 2025, https://www.apple.com/accessibility/mobility/
8. Accessibility - Apple, accessed March 30, 2025, https://www.apple.com/accessibility/
9. Get started with accessibility features on Mac - Apple Support, accessed March 30, 2025, https://support.apple.com/guide/mac-help/get-started-mh35884/mac
10. Accessibility features for mobility on Mac - Apple Support, accessed March 30, 2025, https://support.apple.com/guide/mac-help/mobility-mchl654a7cc7/mac
11. Remote Mouse on the Mac App Store, accessed March 30, 2025, https://apps.apple.com/us/app/remote-mouse/id403195710?mt=12
12. Turn iPhone, iPad and Android into wireless mobile mouse / trackpad / keyboard with Remote Mouse., accessed March 30, 2025, https://www.remotemouse.net/
13. Remote Mouse - Apps on Google Play, accessed March 30, 2025, https://play.google.com/store/apps/details?id=com.hungrybolo.remotemouseandroid
14. How to turn iPhone in Magic Mouse! - YouTube, accessed March 30, 2025, https://www.youtube.com/watch?v=m7DPq24q6SY&pp=0gcJCdgAo7VqN5tD
15. Mobile Mouse Remote on the App Store, accessed March 30, 2025, https://apps.apple.com/us/app/mobile-mouse-remote/id289616509
16. Mobile Mouse: Turn your iPhone, iPad, or Apple Watch into a …, accessed March 30, 2025, https://mobilemouse.com/
17. Remote Buddy - control your Mac with remotes, iPhone, iPad, Siri Remote and Apple TV - IOSPIRIT, accessed March 30, 2025, https://www.iospirit.com/products/remotebuddy/
18. Remote Buddy apps for Apple TV, iOS, watchOS now available - IOSPIRIT, accessed March 30, 2025, https://www.iospirit.com/blog/2015/11/Introducing-Remote-Buddy-for-Apple-TV-iPhone-iPad-and-Apple-Watch
19. FullControl: Remote for Mac 4+ - App Store, accessed March 30, 2025, https://apps.apple.com/us/app/fullcontrol-remote-for-mac/id347857890
20. FullControl: Remote for Mac 4+ - App Store, accessed March 30, 2025, https://apps.apple.com/gb/app/fullcontrol-remote-for-mac/id347857890
21. FullControl: Remote for Mac 4+ - App Store - Apple, accessed March 30, 2025, https://apps.apple.com/nz/app/fullcontrol-remote-for-mac/id347857890
22. FullControl: Remote for Mac on the App Store, accessed March 30, 2025, https://apps.apple.com/be/app/fullcontrol-remote-for-mac/id347857890
23. FullControl: Remote for Mac 4+ - App Store - Apple, accessed March 30, 2025, https://apps.apple.com/il/app/fullcontrol-remote-for-mac/id347857890
24. Apple Watch Remote Control Apps - SimplyMac, accessed March 30, 2025, https://www.simplymac.com/apple-watch/apple-watch-remote-control-app
25. Is there a way to set scroll direction independently for mouse and trackpad, accessed March 30, 2025, https://discussions.apple.com/thread/253237603
26. Set scroll direction independently for mouse and trackpad - Apple Support Community, accessed March 30, 2025, https://discussions.apple.com/thread/6931667
27. Allow different “Natural scrolling” bindings for mouse and trackpad. - Apple Support Community, accessed March 30, 2025, https://discussions.apple.com/thread/255208604
28. How to Change the Scroll Direction on a Mac: 2 Ways - wikiHow, accessed March 30, 2025, https://www.wikihow.com/Change-the-Scroll-Direction-on-a-Mac
29. Best Mac app for smooth scrolling? - Reddit, accessed March 30, 2025, https://www.reddit.com/r/mac/comments/tiixqo/best_mac_app_for_smooth_scrolling/
30. Natural Scrolling issue with touchpad and external mouse after sonomo update, accessed March 30, 2025, https://discussions.apple.com/thread/255455400
31. Scrolling with trackpad/ mouse - Apple Support Communities, accessed March 30, 2025, https://discussions.apple.com/thread/256010506
32. Apple Watch Ultra - Technical Specifications, accessed March 30, 2025, https://support.apple.com/en-us/111852
33. Gyroscope and accelerometer | Apple Developer Documentation, accessed March 30, 2025, https://developer.apple.com/design/human-interface-guidelines/gyro-and-accelerometer
34. Apple watch series-1 used for recording accelerometer and gyroscope signals., accessed March 30, 2025, https://www.researchgate.net/figure/Apple-watch-series-1-used-for-recording-accelerometer-and-gyroscope-signals_fig3_342995592
35. How to turn on double tap-like gesture control on almost any Apple Watch - 9to5Mac, accessed March 30, 2025, https://9to5mac.com/2024/07/03/how-to-turn-on-double-tap-on-any-apple-watch/
36. What’s new in Core Motion - WWDC23 - Videos - Apple Developer, accessed March 30, 2025, https://developer.apple.com/videos/play/wwdc2023/10179/
37. What’s new in Core Motion | Documentation - WWDC Notes, accessed March 30, 2025, https://wwdcnotes.com/documentation/wwdcnotes/wwdc23-10179-whats-new-in-core-motion/
38. Getting processed device-motion data | Apple Developer Documentation, accessed March 30, 2025, https://developer.apple.com/documentation/coremotion/getting-processed-device-motion-data
39. Core Motion | Apple Developer Documentation, accessed March 30, 2025, https://developer.apple.com/documentation/coremotion
40. Core Motion | Apple Developer Documentation, accessed March 30, 2025, https://developer.apple.com/documentation/CoreMotion?language=objc
41. Calibrate your Apple Watch for improved Workout and Activity accuracy, accessed March 30, 2025, https://support.apple.com/en-us/105048
42. Get the most accurate measurements using your Apple Watch, accessed March 30, 2025, https://support.apple.com/en-us/105002
43. SensorKit | Apple Developer Documentation, accessed March 30, 2025, https://developer.apple.com/documentation/sensorkit
44. Get raw data from apple watch’s se… | Apple Developer Forums, accessed March 30, 2025, https://developer.apple.com/forums/thread/733186
45. watchOS - Wikipedia, accessed March 30, 2025, https://en.wikipedia.org/wiki/WatchOS
46. How To Control An imp With An Apple Watch | Dev Center, accessed March 30, 2025, https://developer.electricimp.com/examples/applewatchexample