Trending February 2024 # Apple Quietly Makes Interesting Changes To The Applecare+ Program # Suggested March 2024 # Top 3 Popular

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Although Apple did not publicly announce the changes, the company do not intend to keep it that way. Apple is now sending emails to its AppleCare customers. The email is a reminder of the changes to the AppleCare+ program.

The email from Apple re-emphasizes the accidental damage repair coverage for the AppleCare+ program. According to the company, the repair coverage for accidental damage is now indefinite. This is way better than the previous twice a year. Of course, users can only have access to this if their subscription plan is active. Apple also says the extra protection is “at no extra cost”. Also, customers don’t have to do anything to get unlimited protection against accidental damage.

“Your AppleCare+ plan now protects covered devices from unlimited incidents of accidental damage while the plan is in effect (instead of being supported twice every 12 months). Each incident is subject to an applicable service fee. There is no extra charge for protection, and users don’t have to do anything.”

How real is the AppleCare+ program?

As of now, we can not tell whether Apple is serious about the AppleCare+ program changes. It is possible that the company has practical limits so as to prevent abuse of the program. The price for an active AppleCare+ subscription varies depending on the device. Furthermore, customers can choose to either pay monthly or pay the full annual cost at once. For the iPhone 14, AppleCare+ costs $9.99 per month or the full price of $199. It’s worth noting that even if you subscribe to AppleCare+, you still need to pay Apple for the service if your device needs repairs.

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Apple’s official website states, “Each iPhone comes with a 1-year hardware warranty and up to 90 days of free phone technical support within the limited warranty period. The AppleCare+ service plan for iPhone extends your service coverage and also provides an unlimited number of accidental damage warranty services, each time a corresponding service fee is charged: for screen or glass back panel damage, a service fee of RMB 188 ($26) is charged; for other accidental damage, a service fee of RMB 628 ($88) is charged”.

Apple is the largest customer of 4-5 nanometer cutting-edge semiconductors

Apple is the largest buyer of cutting-edge semiconductors

At present, Apple has become the largest buyer of cutting-edge semiconductors. After 2023, Apple’s MacBook laptops and iPad tablets always have 5-nanometer semiconductors. Of course, since the iPhone 12 series, iPhones have been using 4-5 nanometer chips. Although there has been a surplus of semiconductor supply at a time when consumer electronics markets such as mobile phones and PCs are shrinking, in the field of 4-5 nanometer cutting-edge semiconductors, supply is still in short supply.

At present, manufacturers that can supply 5-nanometer chips are limited to two foundry companies, TSMC and Samsung. TSR said that TSMC’s leading position has not changed. More than 60% of the supply capacity of 4-5 nanometer chips comes from TSMC. In August, TSMC said that 3-nanometer chips “will be mass-produced soon”. If the number of products using 3-nanometer chips increases in the final products put on the market in 2023, there will be a surplus of 4-5 nanometer supply capacity.

According to a previous report, tech blogger @MobileChipDaren once said that Apple is currently preparing 40 million A17 (N3E) processors for the iPhone 15 series next year (2023). Just as we have in the iPhone 14 series, only the Pro models of the iPhone 15 will switch to new processors.

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Tim Cook Sends Email To Apple Employees Regarding Management Changes

Earlier today, Apple announced some major changes to its management team. The company’s SVP of iOS Software, Scott Forstall, will be leaving next year, as will SVP of Retail John Browett. Other executives, particularly Jony Ive, will be picking up Forstall’s responsibilities, and a search is underway for Browett’s replacement.

This afternoon, Tim Cook sent an internal email to Apple employees regarding the management changes, and thanked Scott for his many years of service. We’ve got that email after the break…

Tim Cook’s letter to employees, via 9to5Mac:

“Team,

We are in one of the most prolific periods of innovation and new products in Apple’s history. The amazing products that we’ve introduced in September and October – iPhone 5, iOS6, iPad mini, iPad, iMac, MacBook Pro, iPod touch, iPod nano and many of our applications – could only have been created at Apple, and are the direct result of our relentless focus on tightly integrating world-class hardware, software and services.

Jony Ive will provide leadership and direction for Human Interface (HI) across the company in addition to his longtime role as the leader of Industrial Design. Jony has an incredible design aesthetic and has been the driving force behind the look and feel of our products for more than a decade. The face of many of our products is our software and the extension of Jony’s skills into this area will widen the gap between Apple and our competition.

Eddy Cue will take on the additional responsibility of Siri and Maps. This places all of our online services in one group. Eddy and his organization have overseen major successes such as the iTunes Store, the App Store, the iBookstore and iCloud. They have an excellent track record of building and strengthening our online services to meet and exceed the high expectations of our customers.

Bob Mansfield will lead a new group, Technologies, which combines all of our wireless teams across the company in one organization, allowing us to innovate in this area at an even higher level. This organization will also include all of our semiconductor teams, who have some very ambitious plans. As part of this, I am thrilled to tell you that Bob will remain with Apple for an additional two years. Bob has led some of our most challenging engineering projects for many years.

Additionally, John Browett is leaving Apple. Our search for a new head of Retail is already underway. In the meantime, the Retail team will report directly to me. Retail has an incredibly strong network of leaders at the store and regional level, and they will continue the excellent work they’ve done over the past decade to revolutionize retailing with unique, innovative services and a focus on the customer that is second to none. This phenomenal team of talented and dedicated people works their hearts out making our customers happy. They have our respect, our admiration and our undying support.

Please join me in congratulating everyone on their new roles.

I’d like to thank everyone for working so hard so that Apple can continue to make the world’s best products and delight our customers. I continue to believe that Apple has the most talented and most innovative people on the planet, and I feel privileged and inspired to be able to work with all of you.

Best,

Tim”

Skreenstv Makes Back To The Future Ii Multi

SkreensTV makes Back to the Future II multi-screen a reality

So you’re in the mood to watch more than one TV program at once – you just use your television’s “picture in picture” mode, right? Sure, unless you want more shows than two. Or perhaps you’re in the mood to play a video game while you watch Netflix with a connected iPad through your Apple TV? What if you want to watch three things at once and browse the internet at the same time? There’s SkreensTV for that – a device that will split your TV screen up into pieces.

It’s not a hoverboard. It’s not a flying Delorean. It IS a multi-screen television device. We’re edging in on everything Back to the Future II predicted being right for the world here in 2014 – we’re only one year away from the Future in that second movie in the series, after all. We’ve even almost got the real Nike MAG shoes with power laces!

“Art off! Okay, I want channels 18, 24, 63, 109, 87, and The Weather Channel!”

—Marty McFly, Jr.

Below you’ll see SkreensTV in action. A father with interest in sports, a mother who loves QVC, a little girl who wants to watch iCarly, and a boy who wants to play Xbox One. How on earth will they ever manage?

My goodness, how could your family have ever sat on the couch before now? Finally, your family can experience togetherness. At last!

And what’s this – you can access more than just your gaming system and set-top box. You can have six different things open at once if you want. Security systems, Roku TV, Chromecast, a web browser, Twitter, DirecTV, Facebook, Cable tv. Whatever you can plug in with an HDMI cable, basically.

You control the whole setup with an app. Once you have more than one screen running, your tablet will allow you to move and adjust the screens on your TV with a tap.

PlayStation 4 and Xbox One on the same display? Blasphemy! But you can make it happen with SkreensTV. And of course in that case you can listen to your individual system with headphones just so long as you’ve got them connected to your controller.

This system is part of an IndeGogo, but doesn’t at the moment seem to be part of the same sort of crowdfunding venture. It has Flexible Funding, which means it doesn’t necessarily have to meet its $200k goal to keep the cash its made during its run.

You can pre-order this device now and it would appear that it doesn’t matter how much of the IndeGogo cost is reached. One SkreensTV unit will cost you $399 USD. That’s with 4GB of internal storage and a “Founders Club Membership” which will allow you to communicate with the rest of the Founders Club community to “shaper SkreensTV and personalize [your] entertainment setup.” Sound like a winner to you?

Interesting Facts About Ramappa Temple

Ramappa Temple An Architectural Marvel

The “Ramappa temple” is named after the sculptor, Ramappa. The technical masterpiece known as Ramappa Temple is the exquisite quality of the illustrious Kakatiya dynasty. UNESCO has designated Telangana’s Ramappa Temple, also known as the Rudreswara Temple (constructed by Kakatiyas), as a World Heritage Site.

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Regarding Ramappa Temple

Ramalingeswara Temple is another name for Ramappa Temple. It is present in the Telangana village of Palampet. Kakatiya commander Recharla Rudra constructed a walled structure under Ganapati Deva in 1213 AD. You can worship Lord Ramalingeswara in the temple, which honors Lord Shiva.

The temple has the following characteristics:

It is a pyramidal building with four stories.

Unique and pyramidal Vimana composed of lightweight porous bricks or which lowered the weight of the roof constructions.

Chiseled granite and porphyritic pillars and beams with embellishments.

High-caliber sculptures may depict the temple’s local dancing traditions and Kakatiyas culture.

The bracket figures from the temple’s outside pillars support the roof extensions.

Interesting facts about Ramappa Temple

Below are some facts about Ramappa Temple:

#1 Floating Bricks

Bricks that may float in water make up the top of the Ramappa Temple (also known as Ramalingeswara Temple). According to recent tests, these bricks weigh around one-third or one-fourth as much as typical bricks of the same size.

These bricks make up the top of the temple, reducing the strain on the pillars and walls. So, there will be less possibility of the temple toppling during a natural disaster like an earthquake.

#2 Ramappa Temple’s architecture inspired its name #3 Nandi standing

If you go to this temple, you can see a statue of Nandi. The significant feature of this Nandi is that it needs to be seated. He is prepared to rise since it is in this posture. Another unique feature of this Nandi is that its eyes are constructed in such a way that, no matter what angle or direction you view it from, you will discover that it is solely looking at you.

#4 Earthquake-resistant construction (SandBox Technique)

The Kakatiya Rulers who constructed this temple made an effort to make it earthquake-proof. They achieved this by utilizing a method known as Sandbox. These sandboxes act as cushions during an earthquake and protect the buildings.

#5 Replica of the Main temple

You can see an identical replica of the Ramappa Temple outside the original temple. The main idea behind this replica is to examine the model to make the main structure.

#6 Temple on a platform with a 6-foot star shape #7 The Ramappa Temple’s High Steps

The Kakatiya Dynasty constructed extraordinarily tall steps. The emperors of the Kakatiya Dynasty stood roughly seven to eight feet tall. For convenience, the Indian government created steps behind it.

#8 Carvings Educating About India’s Past

On both the temple’s pillar and wall are intricate sculptures. Additionally, specific figurines have intricate carvings.

The Ramappa temple consists of four figures along its three sides, which depicts the female dancers.

One depiction shows a woman with large nails, currently considered fashionable, yet it is evident from the figure that this style dates back almost 800 years.

These carvings and images also reveal several other things.

#9 Metal Carving Music

You’ll hear a lovely melodic melody if your palms or fingers strike the metal engravings.

#10 Latest News about Ramappa Temple

President Droupadi Murmu visited Telangana from December 26 to December 30, 2023. The cornerstone for projects for the Ministry of Culture on the same day, she launched the PRASHAD project and visited the Ramappa (Rudreshwara) temple.

Final Thoughts

Ramappa temple is known for its historical structures. We can see the stories from mythology on each pillar. Along with mythology, these pillars can produce musical sounds when you hit them. For every step you move forward, you can see the brilliance of the sculptor.

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We hope that this EDUCBA information on “Ramappa Temple” was beneficial to you. You can view EDUCBA’s recommended articles for more information,

Swift Program To Find The Area Of The Rectangle

This tutorial will discuss how to write a Swift program to find the area of the rectangle.

Formula for Area of Rectangle

Following is the formula for the area of the rectangle −

Area = Length(L) * Width(W)

Below is a demonstration of the same −

Input

Suppose our given input is −

Length = 10 Width = 5

Output

The desired output would be −

Area = 10 * 5 = 50. Area = 50 Algorithm

Following is the algorithm −

Step 1 − Declare two variables of integer type to store the value of the length and width of the rectangle. Here the value of these variables can be pre-defined or user-defined.

Step 2 − Declare an Area variable to store the area of the rectangle.

var RectArea = RectLength * RectWidth

Step 3 − Print the output.

Example 1

The following program shows how to find the area of the rectangle.

import

Glibc

var

RectLength

:

Int

=

20

var

RectWidth

:

Int

=

10

var

RectArea

=

RectLength

*

RectWidth

print

(

“Length – “

,

RectLength

)

print

(

“Width – “

,

RectWidth

)

print

(

“So, Area of the rectangle- “

,

RectArea

)

Output Length - 20 Width - 10 So, Area of the rectangle- 200

Here, in the above code, we find the area of the rectangle by multiplying the given length and width of the rectangle.

var RectArea = RectLength * RectWidth

That is ReactArea = 20 * 10 = 200. And display the area that is 200

Example 2

The following program shows how to find the area of the rectangle with user-defined inputs.

import

Foundation

import

Glibc

print

(

"Please enter the length - "

)

var

RectLength

=

Int

(

readLine

(

)

!

)

!

print

(

"Please enter the width - "

)

var

RectWidth

=

Int

(

readLine

(

)

!

)

!

var

RectArea

=

RectLength

*

RectWidth

print

(

"Entered Length - "

,

RectLength

)

print

(

"Entered Width - "

,

RectWidth

)

print

(

"So, Area of the rectangle- "

,

RectArea

)

STDIN Input Please enter the length - 6 Please enter the width - 3 Output Entered Length - 6 Entered Width - 3 So, Area of the rectangle - 18

Here, in the above code, we find the area of the rectangle by multiplying the given length and width of the rectangle.

var RectArea = RectLength * RectW idth

Here we take the value of RectLength and RectWidth from the user using readLine() function and convert the entered value in the integer type using Int() function. So ReactArea = 6 * 3 = 18, And display the result that is 18.

Area of a rectangle in terms of diagonals

We can also calculate the area of the rectangle with the help of diagonal and width. A rectangle has two diagonals and both are equal.

Formula for Area of Rectangle using Diagonals

Following is the formula for the area of rectangle in terms of diagonals

Area = Width(√ (Diagonal)2 - (Width)2) Example

The following program shows how to find the area of the rectangle using diagonals.

import

Glibc

var

RectDiagonal

=

30.0

var

RectWidth

=

10.0

var

RectArea

=

RectWidth

*

(

sqrt

(

pow

(

RectDiagonal

,

2

)

pow

(

RectWidth

,

2

)

)

)

print

(

“Diagonal – “

,

RectDiagonal

)

print

(

“Width – “

,

RectWidth

)

print

(

“So, Area of the rectangle- “

,

RectArea

)

Output Diagonal - 30.0 Width - 10.0 So, Area of the rectangle- 282.842712474619

Here in the above code, we find the area of the rectangle with the help of diagonal and width using the formula −

var RectArea = RectWidth * (sqrt(pow(RectDiagonal, 2) - pow(RectWidth, 2)))

Here we find the square root using sqrt() function and pow() function is used to find the power. So the working of the above code is

ReactArea = 10.0 * (sqrt(pow(30.0, 2) – pow(10.0, 2))) = 10.0 * (sqrt(900 – 100)) = 10.0 * (sqrt(800)) = 10.0 * (28.2842712474619) = 282.842712474619

Golang Program To Cyclically Permutes The Elements Of The Array

Cyclically means that in every cycle we wish to move the array elements by one position till we get the original array again. Cyclic permutation can be useful in various matrix manipulation and linear algebra operations. In this article, we are going to see different examples to permute the elements of the array cyclically using go programming language.

Syntax func append(slice, element_1, element_2…, element_N) []T

The append function is used to add values to an array slice. It takes number of arguments. The first argument is the array to which we wish to add the values followed by the values to add. The function then returns the final slice of an array containing all the values.

func make ([] type, size, capacity)

The make function in go language is used to create an array/map it accepts the type of variable to be created, its size, and capacity as arguments and returns the slice that we can store in the variable.

Algorithm

Step 1 − First, we need to import the fmt package.

Step 2 − Then start the main() function. Here in this function initialize an array of integers using make() function and append values to it using append() function.

Step 3 − Declare a new variable called n and store the length of array to it. Further, print the array on the screen.

Step 4 − Use a for loop to iterate over the array and shift the elements of the array to left by one position and print the new array thus formed.

Step 5 − Print the new array in each Step until whole of the array is shifted cyclically.

Example 1

In this example, we will use a for loop to permute the elements of the array in cyclic manner. We will use the for loop to iterate over the array and shift the element of the array to left by one position in each Step.

package main import "fmt" func main() { arr := make([]int, 0, 5) arr = append(arr, 1, 2, 3, 4, 5) n := len(arr) fmt.Println("The given array is: ", arr) for i := 0; i < n; i++ { last := arr[n-1] arr[j] = arr[j-1] } arr[0] = last fmt.Println("Permuted Array: ", arr) } } Output The given array is: [1 2 3 4 5] Permuted Array: [5 1 2 3 4] Permuted Array: [4 5 1 2 3] Permuted Array: [3 4 5 1 2] Permuted Array: [2 3 4 5 1] Permuted Array: [1 2 3 4 5] Example 2

In this example, we will use the internal append() function of the go programming language to cyclically permute the elements of the array till we get the original array again.

package main import "fmt" func main() { arr := make([]int, 0, 5) arr = append(arr, 1, 2, 3, 4, 5) n := len(arr) fmt.Println("Original Array: ", arr) for i := 0; i < n; i++ { arr = append(arr[1:], arr[0]) fmt.Println("Permuted Array: ", arr) } } Output Original Array: [1 2 3 4 5] Permuted Array: [2 3 4 5 1] Permuted Array: [3 4 5 1 2] Permuted Array: [4 5 1 2 3] Permuted Array: [5 1 2 3 4] Permuted Array: [1 2 3 4 5] Conclusion

We have successfully compiled and executed a go language program to cyclically permute the elements of the array. Here we have used two programs. In the first program we are using a for loop to shift the elements of the array by one position till we get the original array again while in the second program we are using an internal function append() to perform the logic and print the array after each Step.

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