Dec 31, 2017 What a ridiculous system - one day in, already I just want to get rid of the Start screen - it's superfluous. I keep right clicking on it thinking I can get it to show ALL apps on one screen so that I can see all my programs; all I do now is go straight to the desktop, where I can actually use programs, but that doesn't have a programs button, so I have to go back to the Start screen, click on. You may want to capture your Mac screen for troubleshooting, sharing, or teaching. Whatever the reason, it isn't difficult to take a screen recording or capture on your Mac. You don't even need third-party software, although screen recording software is available if you want it.Here's how to screen record on Mac. Check out Snappy App - it allows you to grab any part of your screen and float it above the screen - then you can draw on it, change its transparency, shrink it down, whatever. There's a free version which does more or less all you'd want and the in-app purchases are very cheap (you need an in-app. Many apps on your Mac support full-screen mode—an app fills the entire screen—so you can take advantage of every inch of the screen and work without desktop distractions. On your Mac, move the pointer to the green button in the top-left corner of the window, then choose Enter Full Screen from the menu that appears or click the button.
Knowing which Apps or Processes are running on your Mac is important, because some of these Apps could be slowing down your Mac. You will find below 4 different ways to show All the Running Apps and Processes on your Mac.
Why to See All Running Apps and Processes on Mac
In case you are coming from a Windows computer, you must be used to opening the Task Manager on your Windows computer, in order to take a look at all the running apps and processes on your computer.
In the case of a Mac, there are multiple ways to see all the Running Apps and Programs, ranging from the simple option of using the Dock to using the Terminal command.
In general, the purpose of taking a look at All the Running Apps and Programs on your Mac is to get an idea of which programs are actively running on your Mac, what resources they are using and also to rule out the possibility of any unnecessary programs running in the background and using up resources on your computer.
Show All Running Apps and Processes On Mac Using the Activity Monitor on Mac
Activity Monitor can be described as the Mac equivalent of a Task Manager in a Windows computer. The Activity Monitor provides a very good view of the App and processes running on your Mac and the amount of resources being uses by these Apps and Processes.
1. Click on the Finder icon located in the left corner of the Dock (See image below)
2. On the next screen, click on Applications in the left sidebar menu and then click on the Utilities folder.
3. In the Utilities folder, click on Activity Monitor which should be the first item in Utilities Folder (See image below)
4. Once Activity Monitor opens, you will be able see a list of All the Processes or Applications currently running on your Mac (See image below)
As you can see in the above image, there are 5 different tabs in the Activity Monitor -> CPU, Memory, Energy, Disk and Network.
Clicking on each tab will show you more details, for example, clicking on the Memory Tab will show you how much memory each process is using. Similarly, clicking on the CPU tab will show you the amount of CPU being used by each of these Apps and Processes running on your Mac.
5. To view more info about a specific Process or Application, simply click on the Application/Process and then click on the i icon button located at the top left Corner of the screen (See image below).
6. To force quit an application or process through Activity Monitor, simply click on the application you would like to force quit and then click on the x button, located at the top left side of your screen (See image below)
Mac App Show Guidelines On Screen SizeShow All Running Apps On Mac Using Force Quit Applications Manager
Another method to check all the Running apps and programs on your Mac is through the Force Quit applications manager on Mac.
1. Click on the Apple icon in the top menu bar of your Mac and then click on Force Quit Application in the drop-down menu (See image below).
2. This will open the Force Quit Applications manager which will show you all running apps on your Mac
3. To force quit one of these applications, simply click on the application from the list and click on the Force Quit button.
Show Running Apps and Processes On Mac using the Terminal Command
The Terminal also shows you a detailed view of which applications and processes are running on your Mac, along with the percentage of CPU used by each of these applications/processes.
1. To open Terminal on your Mac, do a spotlight search for the Terminal by pressing the Command + Space keys on your Mac keyboard and searching for Terminal in Spotlight Search. (See image below)
2. Next double click on the Terminal option or press the enter key on your Mac’s keyboard to open up Terminal
Mac App Show Guidelines On Screen Tv
3. In the terminal type in top –o cpu and press the enter key on your keyboard
This will show you a list of all running apps and processes with the apps consuming the most CPU at the top of the list.
4. To reorganize this list close the Terminal and reopen it. Once Terminal reopens type in top –o rsize and press the enter key on your keyboard.
Now applications or processes which are using the most memory will be listed at the top of the list and the application or processes using the least memory will be listed at the bottom of the list.
Show Running Apps Through Dock
The easiest way to view running apps on your Mac is by simply taking a look at your dock.
All running applications will have a black dot underneath the applications icon (See image below)
While this method is easy to follow, it sometimes will not show you all apps running in the background and does not even show you which processes are running in the background.
This method also does not give you much detail, like how much memory each application is using or how much CPU is being used by each application.
Window Anatomy
A window consists of a frame area and body area that let the user view and interact with content in an app. A window can appear onscreen alongside other windows, or it can fill the entire screen (see Full-Screen Mode). In a window that’s not full-screen, the user can click and drag the frame to reposition the window on screen. Users can also click and drag the edges of the window to resize it, if the window supports resizing.
For developer guidance, see NSWindow.
Types of Windows
There are many varieties of windows in macOS.
TIP A popover is a transient view that nonintrusively provides information or editing functions related to the current context. A popover isn’t considered a window even though it’s similar to a panel in appearance and functionality. For guidance, see Popovers.
The Window Frame
The frame is the portion of a window that surrounds body content. A window frame can include a title bar, toolbar, tab bar, and (in rare cases) a bottom bar.
Title Bar
The title bar resides at the top of a window and includes options for closing, minimizing, and zooming (or expanding to full-screen mode) the window. These options are usually visible, but can be hidden as a group, such as when playing a movie in QuickTime Player, or individually disabled, such as when a full-screen app can't be minimized. Most title bars display the filename, although this isn’t always the case. For example, the title bar of an alert is empty. The title bar of a document window may also display an icon and let the user click the title to change the document’s filename, tags, and location. A title bar should be visible, but can be hidden in an immersive app like a game.
Provide a title unless there’s enough context that one is unnecessary. For document windows, the title is the name of the document or Untitled (for new documents). For app windows, the title is the name of the app. For other windows, the title may be a specific type of functionality, such as Inspector.
Use the display name when using a file name as a window title. The display name reflects the user’s preference for showing or hiding a file extension and may also include localized text.
Don’t display file or folder paths in the title bar. Paths are generally too long to fit in the title bar without clipping, and they’re difficult to parse at a glance. Show the filename in the title bar instead. If you want to expose the complete path, do so in another way, such as through an inspector pane.
Use numeric suffixes to differentiate duplicate titles. The first instance of a title shouldn’t have a numeric suffix. When there are other windows with the same title, the windows should include numeric suffixes, starting with 2. For example, Untitled, Untitled 2, Untitled 3.
Make sure users can still interact with your window if you hide the title bar. Provide alternate ways—like menus—to close and minimize the window. Make sure the user can still click and drag the frame to move the window. If the window has a toolbar and no title bar, make sure there’s enough space in the toolbar to click and drag the window without activating toolbar items.
Toolbar
A toolbar, when included, resides beneath the title bar (or is integrated with the title bar) and includes controls—known as toolbar items—that provide quick access to frequently used commands and features. For example, the default toolbar on a message viewer window in Mail includes controls for performing tasks like composing, archiving, deleting, replying to, forwarding, flagging, and searching messages.
Separate title bar and toolbar
Integrated title bar and toolbar
A toolbar can be hidden in full-screen mode to increase focus on content. Many apps also let the user customize the toolbar by adding and removing items, and choosing whether to display items as icons, text, or both.
For guidance, see Toolbars.
Tab Bar
A tab bar, when included, lets the user switch between multiple body content views within a single window. For example, a Safari window lets the user create separate tabs, each of which displays a different website. A tab bar resides beneath the title bar and toolbar, and the user can click a tab to view its content. The user can also click and drag a tab out of a tab bar to display it in a separate window. The Finder and many other apps in macOS support tabbed windows—all windows have tabs enabled by default.
Bottom Bar
In rare cases, a window may include a bottom bar that resides below the body area and includes controls for affecting the content of the window. The bottom bar in the Buddies window in Messages, for example, includes options for initiating a chat, FaceTime call, or screen sharing session with the selected buddy.
The Window Body
The body area displays the main content of the window. This content can fill the entire body area, such as a website in a Safari window or an image in Preview, or the content can be divided into subviews. For example, the body area of a Finder window could include a sidebar and a column view. Content that extends beyond the bounds of its parent view in the body area is scrollable.
For related guidance, see Sidebars and Scroll Views.
Scope BarMac App Show Guidelines On Screen Computer
A scope bar, when included above the body content, lets the user narrow down a search operation or filter content based on specific attributes. When searching for files and folders in the Finder, for example, a scope bar offers controls for scoping the search to specific locations and attributes (like the filename, type, extension, or tags). A scope bar resides beneath the title bar, toolbar, and tab bar.
For related guidance, see Search and Spotlight, and Search Fields.
Window States
The windows displayed onscreen are layered in a hierarchy based on when they were last accessed. More recently accessed windows are layered higher and the hierarchy changes as the user switches between apps and windows. Within the window hierarchy, there are three window states.
Main Window State
The foremost window that’s the focus of the user’s attention within an app is that app’s main window. There can be only one main window per app.
Key Window State
The window that currently accepts user input is the key window (sometimes referred to as the active window). Keyboard shortcuts, like Command-W to close a window, always target the key window. There can be only a single key window onscreen at any time. Often, the front app’s main window is also the key window. However, this isn’t always the case: a panel floating above the main window is sometimes the key window.
Inactive Window State
A window that’s not in the foreground is an inactive window.
Window Appearances
Main, key, and inactive windows vary in their onscreen appearance. Inactive windows are subdued and appear to fall backward, deferring to the main and key windows. The title bar options for closing, minimizing, and zooming are colorized in the key window and gray in other windows. These differences make it easy for the user to quickly identify the main and key windows.
Within a window, elements like toolbars and sidebars can be opaque or they can implement translucency by adopting vibrancy. Vibrancy is a subtle blurring effect that dynamically blends the foreground and background using a careful balance of lightening and darkening techniques. This effect evokes a feeling of depth by enabling views and controls to hint at content residing in the background. Note that vibrancy is disabled in inactive windows.
For guidance, see Translucency.
Activating Windows
When multiple windows are visible, the user can click to activate a window, which brings it to the front and makes it the key window. The user can also click an app’s Dock icon to bring all of that app’s windows forward; the most recently accessed app window becomes the key window.
Consider offering a menu of window commands. Many apps have a Window menu, which includes commands for minimizing the key window, zooming the key window, navigating tabs, moving individual windows to the front, and moving all windows to the front.
Mission Control also lets the user navigate between an app’s windows. See Mission Control.
TIP Some windows—usually panels like the Colors or Fonts panels—only become the key window when the user clicks the window's title bar or an interface element that requires keyboard input, like a text field.
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