CAT JILC LANDAK BARU

Penggunaan tanda koma yang salah terdapat pada kalimat

Pernyataan yang paling tepat untuk melengkapi kalimat (2) adalah ….

Kalimat manakah yang paling tepat sebagai kalimat inti nomor (1)?

Kalimat manakah yang paling efektif sebagai hasil penggabungan kalimat (3) dan (4)?

Kata yang paling tepat menggantikan kata campuran dalam kalimat (8) adalah ….

Kata kejujuran dalam kalimat (6) seharusnya ….

Kalimat (2) perlu disempurnakan dengan cara…

1) Pendidikan berdasarkan Sisdiknas bertujuan untuk mengembangkan potensi peserta didik agar menjadi manusia yang beriman dan bertakwa kepada Tuhan Yang Maha Esa, berakhlak mulia, sehat, berlimu, cakap, kreatif, mandiri, dan menjadi warga negara yang demokratis serta bertanggung jawab. 2) Namun kenyataannya, kondisi sosial dan kultural masyarakat kita akhir-akhir ini memang sangat dikhawatirkan. 3) Masyarakat kita menghadapi krisis kronis dan hilangnya perilaku positif termakan zaman diganti perilaku negatif yang cenderung destruktif. 4) Untuk itu, pendidikan karakter menjadi semakin mendesak untuk diterapkan dalam lembaga pendidikan kita. 5) Sekolah merupakan suatu wadah yang sangat tepat sekali untuk mengembangkan pendidikan karakter bagi anak. 6) Belajar akuntansi, misalnya, tidak hanya sekadar terampil dalam berhitung, tetapi juga menumbuhkan karakter rasional, kejujuran, objektif, terbuka, dan tekun lewat pelajaran akuntansi. 7) Sehubungan dengan hal tersebut, perlu..

Kata yang harus dihilangkan pada kalimat (5) adalah…

Kalimat (2) perlu disempurnakan dengan cara ….

Kata yang harus dihilangkan pada kalimat (4) adalah ….

Pernyataan yang paling tepat untuk melengkapi kalimat (6) adalah ….

Kalimat (6) perlu disempurnakan dengan cara ….

Kalimat yang tidak berkaitan dengan gagasan utama bacaan adalah kalimat….

Penulisan judul artikel dan nama lembaga pada kalimat (4) dan (7) yang benar adalah….

Kata tersebut pada kalimat (7) merujuk ..

Penggunaan huruf kapital yang benar terdapat pada kalimat ….

Hutan merupakan penopang kelestarian kehidupan di bumi karena tidak hanya menyediakan bahan pangan ataupun bahan produksi, melainkan juga menjadi penghasil oksigen, penahan lapisan tanah, dan penyimpan cadangan air.

Kalimat di atas menjadi kalimat baku apabila diperbaiki dengan cara…

Kalimat tidak efektif pada paragraf pertama terdapat pada ….

1) Tidak hanya merusak pemandangan, plastik juga dapat membunuh kehidupan laut. 2) Minggu lalu, seekor paus ditemukan tewas di Thailand Selatan dengan kantung plastik dalam perutnya. 3) Selain itu, burung laut dan kurakura juga mati akibat menelan plastik. 4) Para ahli mengatakan, ancaman sampah plastik juga ada yang tidak terlihat. 5) Mikroplastik, potongan-potongan kecil dari sampah plastik besar yang mudah menyerap racun, ditemukan pada air tawar, air tanah, dan di dalam tubuh ikan yang biasa kita makan sehari-hari.

Penggunaan tanda baca koma yang salah pada paragraf kedua terdapat pada ….

1) Sangat tidak menyenangkan melihat orang-orang membuang sampahnya di tepi pantai. 2) Ini juga berbahaya bagi anak-anak. 3) Di hutan bakau terdekat, petani seringkali menggali lumpur hangat untuk mencari siput atau udang, tetapi malah sampah plastik yang ia temukan. 4) “Sulit bagi kami untuk bekerja di sini, karena tidak menemukan udang dan ikan,” kata seorang nelayan. 5) Satu kilometer dari sana, sepanjang pantai dipenuhi dengan sandal, plastik biskuit, bungkus pasta gigi, kotak jus, perkakas rumah, jaring ikan, baju bekas, hingga sisa-sisa pembakaran sampah.

Penulisan kata yang salah pada paragraf ketiga terdapat pada ….

Who said that a daycare near the workplace was more convenient?

The word “might” in Purplefreedom’s post is used to express a….

Which of the following issues is stated at the beginning of the thread?

Who suggested to choose a daycare close to home by giving detailed scenarios?

The purpose of Zorblaces’ respouse to purplefreedom’s post is to…..

Who posted the most irrelevant response to purplefreedom?

What is the tone of the thread?

What is the main idea of Text 1?

Based on the two texts, what is most likely to happen in the future?

What makes the two texts similar?

What can be inferred about the difference between Western countries and Indonesia regarding profanity?

Which of the following states a fact based on Text 2?

Which of the following shows the author’s positive attitude towards the topic discussed in Text 2?

Which of the options below best restates the following sentence from the text?
“The rise of social media and global influences has made profanity more common among younger generations.”

According to Text 1, what is the advantage of using perovskite nanosheets as the dielectric materials in capacitors?

Text 1 (Capacitors and Perovskite Nanosheets)

Researchers have found a new way to store energy that is important for using renewable energy and making more electric cars. The current method, like lithium-ion batteries, takes a long time to charge and has issues like breaking down over time and even catching fire.

One good alternative is the use of dielectric energy storage capacitors. These capacitors are made of two metal plates with a special film in between. When electricity is applied, the film stores energy. Capacitors can charge quickly and last a long time, but they do not store as much energy as needed. To improve this, researchers need to find materials that can handle a higher electric field.

The researchers used layers of nanosheets made of special materials with a structure known as perovskite. This structure is great for storing energy. By using these materials, they were able to store a lot more energy.

Their new capacitor was tested and showed that it could store 10 to 100 times more energy than before. It also stayed stable even after many uses and at high temperatures. This discovery could lead to better energy storage devices that are fast -charging, long-lasting, and work well in high temperatures. The new capacitors could be used in electric cars, powerful machines, and devices that need quick bursts of energy.

Text 2 (Perovskite Materials in Energy Storage)

Perovskite materials are known for their excellent ability to store electrical energy, making them ideal for use in capacitors. These devices hold and release energy and perovskites can be customized with different elements to enhance their performance. This makes them superior to older materials because they can store more energy and remain stable.

A major benefit of perovskite materials is their effectiveness even when very thin, which is useful for creating smaller electronic devices. They also maintain stability at high temperatures, allowing them to be used in a wide range of electronics without issues.

Recently, scientists have developed a new type of perovskite materials called nanosheets. These nanosheets are ultra-thin layers made from elements like calcium and oxygen. They are particularly good at storing energy, resulting in capacitors that can hold more energy, charge quickly, and perform well at high temperatures.

This nanosheet technology could lead to significant advancements in renewable energy systems and electric vehicles. These capacitors can release energy quickly, which is beneficial for devices that need a lot of power in a short time. As research progresses, these perovskite nanosheets could help create more efficient and effective energi storage solutions.

The wood They in Text 2 Paragraph 3 refers to….

Text 1 (Capacitors and Perovskite Nanosheets)

Researchers have found a new way to store energy that is important for using renewable energy and making more electric cars. The current method, like lithium-ion batteries, takes a long time to charge and has issues like breaking down over time and even catching fire.

One good alternative is the use of dielectric energy storage capacitors. These capacitors are made of two metal plates with a special film in between. When electricity is applied, the film stores energy. Capacitors can charge quickly and last a long time, but they do not store as much energy as needed. To improve this, researchers need to find materials that can handle a higher electric field.

The researchers used layers of nanosheets made of special materials with a structure known as perovskite. This structure is great for storing energy. By using these materials, they were able to store a lot more energy.

Their new capacitor was tested and showed that it could store 10 to 100 times more energy than before. It also stayed stable even after many uses and at high temperatures. This discovery could lead to better energy storage devices that are fast -charging, long-lasting, and work well in high temperatures. The new capacitors could be used in electric cars, powerful machines, and devices that need quick bursts of energy.

Text 2 (Perovskite Materials in Energy Storage)

Perovskite materials are known for their excellent ability to store electrical energy, making them ideal for use in capacitors. These devices hold and release energy and perovskites can be customized with different elements to enhance their performance. This makes them superior to older materials because they can store more energy and remain stable.

A major benefit of perovskite materials is their effectiveness even when very thin, which is useful for creating smaller electronic devices. They also maintain stability at high temperatures, allowing them to be used in a wide range of electronics without issues.

Recently, scientists have developed a new type of perovskite materials called nanosheets. These nanosheets are ultra-thin layers made from elements like calcium and oxygen. They are particularly good at storing energy, resulting in capacitors that can hold more energy, charge quickly, and perform well at high temperatures.

This nanosheet technology could lead to significant advancements in renewable energy systems and electric vehicles. These capacitors can release energy quickly, which is beneficial for devices that need a lot of power in a short time. As research progresses, these perovskite nanosheets could help create more efficient and effective energi storage solutions.

Information regarding the positive aspects of using peruskite nanosheets as dielectric materials in capacitors can be found in…..

Text 1 (Capacitors and Perovskite Nanosheets)

Researchers have found a new way to store energy that is important for using renewable energy and making more electric cars. The current method, like lithium-ion batteries, takes a long time to charge and has issues like breaking down over time and even catching fire.

One good alternative is the use of dielectric energy storage capacitors. These capacitors are made of two metal plates with a special film in between. When electricity is applied, the film stores energy. Capacitors can charge quickly and last a long time, but they do not store as much energy as needed. To improve this, researchers need to find materials that can handle a higher electric field.

The researchers used layers of nanosheets made of special materials with a structure known as perovskite. This structure is great for storing energy. By using these materials, they were able to store a lot more energy.

Their new capacitor was tested and showed that it could store 10 to 100 times more energy than before. It also stayed stable even after many uses and at high temperatures. This discovery could lead to better energy storage devices that are fast -charging, long-lasting, and work well in high temperatures. The new capacitors could be used in electric cars, powerful machines, and devices that need quick bursts of energy.

Text 2 (Perovskite Materials in Energy Storage)

Perovskite materials are known for their excellent ability to store electrical energy, making them ideal for use in capacitors. These devices hold and release energy and perovskites can be customized with different elements to enhance their performance. This makes them superior to older materials because they can store more energy and remain stable.

A major benefit of perovskite materials is their effectiveness even when very thin, which is useful for creating smaller electronic devices. They also maintain stability at high temperatures, allowing them to be used in a wide range of electronics without issues.

Recently, scientists have developed a new type of perovskite materials called nanosheets. These nanosheets are ultra-thin layers made from elements like calcium and oxygen. They are particularly good at storing energy, resulting in capacitors that can hold more energy, charge quickly, and perform well at high temperatures.

This nanosheet technology could lead to significant advancements in renewable energy systems and electric vehicles. These capacitors can release energy quickly, which is beneficial for devices that need a lot of power in a short time. As research progresses, these perovskite nanosheets could help create more efficient and effective energi storage solutions.

What is the relationship between Text 1 and Text 2?

Text 1 (Capacitors and Perovskite Nanosheets)

Researchers have found a new way to store energy that is important for using renewable energy and making more electric cars. The current method, like lithium-ion batteries, takes a long time to charge and has issues like breaking down over time and even catching fire.

One good alternative is the use of dielectric energy storage capacitors. These capacitors are made of two metal plates with a special film in between. When electricity is applied, the film stores energy. Capacitors can charge quickly and last a long time, but they do not store as much energy as needed. To improve this, researchers need to find materials that can handle a higher electric field.

The researchers used layers of nanosheets made of special materials with a structure known as perovskite. This structure is great for storing energy. By using these materials, they were able to store a lot more energy.

Their new capacitor was tested and showed that it could store 10 to 100 times more energy than before. It also stayed stable even after many uses and at high temperatures. This discovery could lead to better energy storage devices that are fast -charging, long-lasting, and work well in high temperatures. The new capacitors could be used in electric cars, powerful machines, and devices that need quick bursts of energy.

Text 2 (Perovskite Materials in Energy Storage)

Perovskite materials are known for their excellent ability to store electrical energy, making them ideal for use in capacitors. These devices hold and release energy and perovskites can be customized with different elements to enhance their performance. This makes them superior to older materials because they can store more energy and remain stable.

A major benefit of perovskite materials is their effectiveness even when very thin, which is useful for creating smaller electronic devices. They also maintain stability at high temperatures, allowing them to be used in a wide range of electronics without issues.

Recently, scientists have developed a new type of perovskite materials called nanosheets. These nanosheets are ultra-thin layers made from elements like calcium and oxygen. They are particularly good at storing energy, resulting in capacitors that can hold more energy, charge quickly, and perform well at high temperatures.

This nanosheet technology could lead to significant advancements in renewable energy systems and electric vehicles. These capacitors can release energy quickly, which is beneficial for devices that need a lot of power in a short time. As research progresses, these perovskite nanosheets could help create more efficient and effective energi storage solutions.

Based on the two texts, which of the following will most likely happen in the future ?

Text 1 (Capacitors and Perovskite Nanosheets)

Researchers have found a new way to store energy that is important for using renewable energy and making more electric cars. The current method, like lithium-ion batteries, takes a long time to charge and has issues like breaking down over time and even catching fire.

One good alternative is the use of dielectric energy storage capacitors. These capacitors are made of two metal plates with a special film in between. When electricity is applied, the film stores energy. Capacitors can charge quickly and last a long time, but they do not store as much energy as needed. To improve this, researchers need to find materials that can handle a higher electric field.

The researchers used layers of nanosheets made of special materials with a structure known as perovskite. This structure is great for storing energy. By using these materials, they were able to store a lot more energy.

Their new capacitor was tested and showed that it could store 10 to 100 times more energy than before. It also stayed stable even after many uses and at high temperatures. This discovery could lead to better energy storage devices that are fast -charging, long-lasting, and work well in high temperatures. The new capacitors could be used in electric cars, powerful machines, and devices that need quick bursts of energy.

Text 2 (Perovskite Materials in Energy Storage)

Perovskite materials are known for their excellent ability to store electrical energy, making them ideal for use in capacitors. These devices hold and release energy and perovskites can be customized with different elements to enhance their performance. This makes them superior to older materials because they can store more energy and remain stable.

A major benefit of perovskite materials is their effectiveness even when very thin, which is useful for creating smaller electronic devices. They also maintain stability at high temperatures, allowing them to be used in a wide range of electronics without issues.

Recently, scientists have developed a new type of perovskite materials called nanosheets. These nanosheets are ultra-thin layers made from elements like calcium and oxygen. They are particularly good at storing energy, resulting in capacitors that can hold more energy, charge quickly, and perform well at high temperatures.

This nanosheet technology could lead to significant advancements in renewable energy systems and electric vehicles. These capacitors can release energy quickly, which is beneficial for devices that need a lot of power in a short time. As research progresses, these perovskite nanosheets could help create more efficient and effective energi storage solutions.

Informations regarding the positive aspects of using perovskite nanesheets as dielectric materials is capacitors can be found in …. Based on Text I and Text 2,
Which of the following recommendations is appropriate to be implemented?