My experimental composition

In daily study, work or life, when it comes to composition, everyone must be familiar with it. Composition is the transition from internal speech to external speech, that is, from a compressed, concise and understandable text The transformation of language into an external language form that is developed, has a standardized grammatical structure, and can be understood by others. I believe that writing essays is a headache for many people. Below is my experimental essay that I have compiled for you. Welcome to read and collect it. My Experimental Composition 1

Last semester, our science teacher guided us to do many experiments when we were in class. What made me unforgettable and exciting was the experiment on electrostatic phenomena.

That day, I had no interest in doing experiments. I just listened to the teacher's lectures casually. But when the teacher said that this experiment could be done with a ruler and small pieces of paper, I suddenly became interested.

I turned around and rummaged through my schoolbag and found a small piece of paper, but I rummaged through it once, twice, and three times and couldn’t find my little ruler. After seeing my classmates looking for tools, they all started to do experiments happily. Oh, I'm so disappointed!

I stared blankly at my pencil case, really annoyed that I usually left it carelessly, which even affected me from being able to do experiments at critical times!

However, at this moment, I remembered that the teacher said that many similar things can also be used for this experiment. The eraser in front of me made my eyes light up, and an idea "popped" in my mind.

So I quickly took out the eraser, put it on my head and rubbed my hair hard. Ouch! Because of the excessive force, it hurt me so much that my hair seemed to "fall off" in the areas where it was rubbed. Then I held the eraser close to the paper. Hey, why didn't you respond?

I scratched the back of my head and couldn’t think of a solution for a moment. I was really like a monk with two feet - I couldn’t figure it out.

"Oh, by the way..." I remembered that the teacher said that the smaller the paper is torn, the easier it is to suck it up. So, I settled down, learned the lessons from previous failures, and redid it again and again...

Ah! I succeeded, I finally succeeded! When the small piece of paper was finally sucked up by my eraser, I was so happy that I really wanted to jump up and scream...

I never imagined that a small experiment could have such a big impact. Knowledge! My Experimental Composition 2

Today I am going to do an experiment. In order to do this experiment, I spent more than 20 days. First, I had to plant impatiens. With the help of my mother, I planted the impatiens seeds I bought into the soil. I watered it a little every day. Under my careful care, I looked forward to the stars and the moon. After 15 days, the impatiens finally sprouted and grew up. After another 5 days, it had grown to a full 20 centimeters. Finally we can start experimenting!

I cut the impatiens stems off at the bottom. Alas, the carefully cared-for impatiens died just because of an experiment. After losing weight, I took out a slightly thinner bottle and put the essence of the hyacinth flower in the bottle. Then after inserting it, put red ink and sesame oil inside. I first put two drops of red ink in the bottle and mixed it with pure water. Then I added two drops of sesame oil and put it on top of the red ink to cover the entire bottle of water. I would check the roots of the flowers every day to see if there were any. A change occurred but after three days there was still no change. I was a little anxious. On the 4th day, the roots and leaves of the impatiens suddenly turned red, which surprised me. I remember my science teacher told us that the stems and leaves of impatiens turned red. We could cut the stems and take a look to see what we would find. I tried it by cutting the stem of the impatiens down the middle. I found many red lines in the middle of the stem, which should be the transportation pipes inside the columns where the red ink spreads! If you cut the stem horizontally, you will find that there are many small red dots on the stem, which look very nice.

I feel that although this experiment took me 24 days, the experiment was very successful and I think it was worth it. My Experimental Composition 3

Hello everyone, I am a fourth-grade student at Guangzheng Experimental School. My name is Ding Sichen. Today I will show you the beauty of our Guangzheng Experimental School!

When we walk into the school gate, we can see a very distinctive fountain. The crystal clear water flows down, and the sound is like melodious music. The fountain sprays up to a height of two to three meters, and then falls like transparent jade beads, like a goddess scattering flowers.

Going further inside, there is a wide school road with tall trees planted on both sides, guarding our campus like soldiers. Next to it is the teaching building of the junior high school, and outside the teaching building there is a large playground for the middle school where you can play football, basketball, running... and there are various sports equipment on the side.

Going further in, you can see a very large parking lot, as big as 9 classrooms. In front of the parking lot is the playground of our elementary school. The playground is surrounded by a track and a stadium inside. The grass is like a green ocean, extremely spacious. There is also a large stage in front of the playground. Every class performed here during Children's Day, and the show was very exciting.

Go further to the right and you can see the teaching buildings for grades 1-6. The teaching buildings are divided into buildings A, B, and C. Building A is for the first and second grade classrooms, and building B is for the third and fourth grade. Building C is for fifth and sixth grade students.

The dining hall is in front of the mathematics building and has three floors. The chefs prepare fresh vegetables and fruits every day, and we can eat delicious meals every day.

Walking through the wind and rain corridor next to the dining hall is our beautiful and warm dormitory. The dormitory has been cleaned cleanly by the life teachers. In our hearts, this is our five-star home.

Our school is very big and beautiful. Different from other schools, our school has a wind and rain corridor that connects the teaching building, dining hall and dormitory. No matter how heavy the wind or rain is, you can’t bring an umbrella. It will not affect our classes and meals. The Wind and Rain Corridor not only protects us from the wind and rain, it is also very beautiful. It is covered with windmills made by the teachers. When the wind blows, the colorful windmills rotate, it is so beautiful!

Ah, Guangzheng is so beautiful. I love Guangzheng Experimental School, and I love our beautiful home! My Experimental Composition 4

Zhu Qingshi once said: "When encountering a problem, I always strive to find ingenious ideas and win by surprise." I have always kept this sentence in my mind until that time I did it myself Only through experiments can I have personal experience.

Today, the science and technology teacher gave us an interesting assignment - making a homemade weather forecast meter. After the teacher simply told us the steps, he let us practice the whole process by ourselves. Looking at the pile of scattered materials, I had a problem. Others are easy to do, but what can be used as a predictor?

I subconsciously raised my head to ask the teacher for help, but the teacher smiled slightly, shook his head gently, and said, "If you innovate yourself, you will always find a way!" I turned back with a grimace, scratched my head, My eyes fell on a certain place unconsciously... Suddenly, I had an idea, pine cones! There is something special about pine cones! Ripe pine cones have many stretched scales. These scales are composed of wood fibers. When the wood fibers are wet, they will elongate and shrink when they dry. Isn't this a ready-made predictor?

I picked out a clean, complete large pine cone, wood board, glue and other materials, and happily began my exploration. First make a base out of a wooden board or plastic board, smooth the pedicle of the pine cone with a file, and then sand it with wood sandpaper to ensure it is smooth and flat. There was no pointer in the materials the teacher gave us, but I seemed to have been opened up to the Ren and Du channels, and my imagination opened up. I innovatively used a bamboo stick to make a pointer, and glued a piece of blow molding paper or white cardboard to the end. Cut arrows. Select a suitably positioned scale on the lower part of the pine cone, stick the finished pointer tightly to the scale, and then adjust the position of the pine cone on the base plate so that the swing of the pointer corresponds to the background plate. While the pinecone wasn't paying attention, I quickly wrapped the pinecone with tape so that it couldn't escape even if it wanted to. It could only predict the weather for me. Finally, mark it with a rain or shine sign. A pinecone barometer was "born". Put it in a ventilated place out of the sun and rain, and you can predict the weather in a few hours!

Although the Pinecone Barometer is simple and not elegant enough, it is the result of my own brainstorming and innovation. Every time I see it, I feel happy. I know that having the courage to innovate means victory! My Experimental Composition 5

One day, I was doing my homework and threw a ball of crumpled paper on the floor. Mom is mopping the floor, and there are still water stains on the floor. The ball of paper sucked up the water on the floor and started to move. I was very curious and immediately called my mother to observe together: the paper was indeed moving. My mother looked at me with wide eyes, and I looked at my mother with wide eyes. Could it be that this piece of paper was enchanted? I decided to find out. So, I turned on my computer, logged on to Baidu, and started searching. As a result, I actually searched for a small experiment related to this. The name of the small experiment is "Resurrected Caterpillar".

I first found a chopstick and a piece of paper, cut the paper into two long strips, and painted them red and green respectively. Then take a green paper strip and wrap it around the chopsticks, and glue the joints of the paper strips together. Then I picked up both ends of the chopsticks with both hands and squeezed the paper wrapped on it toward the middle. The paper strips were squeezed as tightly as possible. Finally, I took out my chopsticks and used a pen to draw the caterpillar's round eyes and raised corners of its mouth on one end of the note. Voila, a caterpillar is ready.

I used the same method to make another caterpillar from another piece of paper. Look, the two caterpillars have different shapes and bright colors, they seem to be real!

I got a glass of water and a dropper, used the dropper to absorb the water, and let the water slowly drip on the caterpillar. The caterpillar seemed to be resurrected, spinning, rolling, and twisting. It's really interesting.

Do you know the principle of this experiment? Please listen to me: There are a lot of plant fibers in paper. Under capillary action, the paper will absorb water, and water has surface tension. When water drops on the shrinking paper, it is fully absorbed by the fibers in the paper. The water The tension will stretch the paper. At this time, the paper started to move like a living caterpillar.

Success! I jumped three feet high with joy, ran to my mother quickly, and told her about the changes in the tension of the water and the changes in the plant fibers of the paper in this experiment. My mother praised me for having a heart that is brave enough to explore and a pair of eyes that are good at observation. My Experimental Composition 6

I remember that when I was 6 years old, I did an interesting little experiment, and it was a successful experiment.

That day I came home from school and drank a glass of water. I thought: Didn’t my mother boil the water? All you need to do is find a fire, put water in a paper cup, and let it burn. So, I found a candle, lit a fire, poured cold water into the paper cup, and started burning it. After a while, the bottom of the cup turned burnt black, and there was still a little firelight from the cup. If only one corner was burned, the corner would make a "hissing" sound. After about two minutes, the wax became more and more The more it turned into water, the smaller the fire became. I quickly poured out the wax water, and the fire became bigger again, but the sound of "hiss" and "hiss" became louder and louder. I was very scared. I was afraid that the paper cup would burn and spill water all over the floor. At this time, a miracle happened: the paper cup was intact, but the base of the paper cup was burned and deformed. Many small bubbles rose up from the bottom of the paper cup, and water droplets continued to emerge from the bottom. I thought: Is this experiment really going to fail? At this time, I discovered a strange phenomenon. The bubbles that emerged were unharmed by the fire. Suddenly, bean-like water droplets fell on the flames, and the fire went out. I had to relight the fire, and I touched the water temperature, wow! 40 degrees, this is because: the boiling point of water is 100 degrees, that is, the highest temperature that water can reach is 100 degrees, and any higher is water vapor. When water comes into contact with the cup, when the fire boils the water, the heat of the cup will be conducted away through heat transfer. , so that the temperature of the cup is always near 100 degrees, and the cup never reaches its own ignition point and cannot burn.

Science is hidden everywhere in life. As long as we have a pair of bright eyes, they will be discovered. My Experimental Composition 7

An exhibition of scientific experiments was held in class. I saw many experiments, including volcanic eruptions, indestructible paper cups, etc. There is also a small experiment I did, which is dancing mustard shreds. Let me tell you about this experiment.

To do this experiment, you need to prepare a glass, a bottle of biscuits, and a pack of mustard shreds in advance. The protagonist of the experiment, mustard shreds, makes a brilliant appearance! The mustard shreds were like skilled divers, jumping in line one by one. Sprite was like a water park, all white. As soon as the mustard shreds jumped into the Sprite, I thought they would sink directly to the bottom of the water. As I was thinking about it, I saw the mustard shreds rising for a while, sinking for a while, turning over for a while, and circling around the bubbles. After a while, the mustard shreds lay weak and panting at the bottom of the cup, with only a Two mustard shreds can barely stand up. I yelled at the mustard shreds, but the mustard shreds remained motionless, as if saying to me, we are tired from dancing, why should we stand up? In the end, the mustard shreds stopped moving.

I thought this experiment was strange, so I asked. Mom smiled and said: The bubbles you just saw are actually a kind of gas called carbon dioxide. They can lift the mustard shreds. When the mustard shreds float to the water, the bubbles will burst and the mustard shreds will sink. When the bubbles rise again, the mustard shreds will rise again, rising and falling all the time, looking like dancing. I suddenly realized that this experiment was true.

Although this experiment was very complicated, I learned a lot about doing experiments and understood the principles of scientific experiments. I really look forward to the next experiment. My Experimental Essay 8

Because my sister’s classmates made soda through experiments, I want to surpass them. I decided to make a potion that could corrode things. But the naive old girl never believed that I could do it, so I had to prove that I could do it and not let them look down on me!

On this day, I prepared potassium permanganate, baking soda, two toothpicks, and a small glass of water.

At first, I sprinkled a little potassium permanganate into a small cup with water, and the water suddenly turned red like a brilliant morning glow. I don’t know if a little potassium permanganate was sprinkled on my hands when I just sprinkled it. A piece of skin on my fingers quickly became burnt, but it didn’t hurt at all. Then I put a toothpick in it. Immediately, the toothpick was burnt.

Later, I added a little baking soda. The water became a little lighter. I called my sister over, and she said with admiration: "Brother! You are so awesome."

Science is a weapon for humans to defeat and transform nature, and it is a weapon that promotes the development of social productivity. important force. Every development of science and technology is a leap in the history of human civilization and an epoch-making victory for mankind to conquer nature and itself. In the primitive society and the early stage of slave society, it was precisely because of the casting of bronzes and the use of iron that the social wealth doubled and caused changes in the social form; in the Industrial Revolution of the 18th century, it was precisely because of the widespread application of steam engine technology that Only then did the Industrial Revolution enter a new stage, thus doubling the wealth of the capitalist world.

After the Second World War, it was precisely the influence of the third scientific and technological revolution, mainly the use of electrical appliances, that greatly promoted the economic recovery of post-war capitalist countries and the development of socialist countries. The substantial economic growth has promoted the rapid increase of social wealth and the fundamental improvement of people's lives.

Therefore, we must learn to do more experiments, discover, and create when we are young. Only when we grow up can we contribute to the development of our motherland.

My Experimental Composition 9

This week’s comprehensive practical assignment is to do scientific experiments. When it comes to small scientific experiments, I get very excited, because doing small scientific experiments makes me find it very interesting and I can also learn. A lot of knowledge!

I happily prepared the materials needed for the experiment: water, transparent cup, red pigment, syringe, edible oil, and effervescent tablets. Everything was ready, and I concentrated on the experiment. First, I poured a small amount of water into the cup, then carefully extracted a little red pigment with a needle and injected it into the cup, like a small red fish jumping into the sea. I picked up the cup and shook it gently. In an instant, the small fish disappeared and the sea turned red. Then I poured in twice as much cooking oil as the water. At this time, a magical phenomenon occurred. The water and oil separated into two layers. It turned out that the density of water was greater than that of oil, so the water was below and the oil was above. . Finally, I gently put the effervescent tablet into the cup. I watched every move in the cup nervously. At first, there were only a few transparent bubbles rising up, and then some red bubbles gradually appeared. There were more and more, and they were getting bigger and bigger. They rolled upwards quickly, and finally formed water columns, which were like lava in a volcano. Watching the eruption process, I couldn't help but marvel at it. It was so amazing!

Why can this experiment simulate the spectacular scene of a volcanic eruption? It turns out that when effervescent tablets encounter water, they will produce a large amount of carbon dioxide. The carbon dioxide will quickly roll upward, causing the colored water to be carried above the oil layer, forming a scene similar to a volcanic eruption.

Science is so amazing! Doing this experiment made me more interested in science. My Experimental Composition 10

The teacher asked us to do a small experiment. The teacher wrote on the blackboard: Dancing confetti. When we saw this title, we thought the teacher was being imaginative. There are many question marks in the minds of the students.

When the teacher wrote those words, there was a lot of discussion in the classroom: "What kind of dance does the confetti dance? How can the confetti dance? Does the confetti appear? The confetti dances mechanically "Dance?" Anyway, it was written by the teacher, so it was possible. The teacher said mysteriously: "Today I want you to see the confetti dance."

When the teacher finished speaking, he started to let us use it. Experiment and witness the miracle!

The teacher took out the experimental materials: pen, paper, and scissors. First, use scissors to cut the paper, and the "呲呲岲" becomes paper scraps. Then use the pen to rub the hair, and finally use the pen to absorb the paper scraps. Wow! The scraps of paper actually sucked onto the pen, but when the pen rubbed against my hair, my scalp was almost torn. I saw the confetti that the teacher sucked up, and the confetti seemed to be dancing. But no matter how hard we rubbed, it was no use. When the teacher said that we could rub her head, the students rushed forward in a swarm.

I rubbed it on my head for three minutes, then gently took off the pen and sucked up the scraps of paper, wow! After sucking it up, my heart felt as sweet as honey. The unsuccessful students were dejected.

When the paper scraps are sucked up, it is like being cast by magic. Some dance on the tip of the pen, which is very graceful; some are afraid of heights and jump down in fright; some stick in bunches. Together, it's like playing football.

It turns out that the friction between the pen and the hair produced static electricity. Some static electricity attracted it, while some had no static electricity and therefore did not attract it.

How amazing, science brings us a lot of fun! My Experimental Composition 11

In the composition class, the teacher gave us a strange assignment, putting onions in water as an experiment. I asked my mother with confusion, and she told me: "Plants need sunlight, water, air, fertilizer and temperature to grow." Oh, the teacher asked us to do this experiment to see if onions can grow in water. .

I first went to my grandma’s house and asked for a medium-sized onion. When I got home, I took a small transparent glass bowl and prepared to grow onions. I peeled off the skin of the onion first. At this time, the purple "underwear" of the onion was exposed, which was smooth, shiny and very beautiful. I carefully put the onions into the glass bowl, and then put half a bowl of water in the bowl. Well, from now on, I have to wait patiently for the results of my experiment.

That night, as soon as I got home, I rushed to the balcony without saying a word. I ran to the balcony and took a look. Except for some changes in the color of the skin, the onions in the bowl had no other changes. I'm so disappointed. At this time, my mother came over and said to me: "Plant growth requires a process, you can't rush." ??So, I decided to wait patiently and continue to observe the onions to see how long it would take for them to change. However, my "onion baby" has been like this for four days in a row, with no obvious changes. It wasn't until the sixth day that I saw the small onion in the water change like magic. White roots began to grow from the bottom of it. I jumped up with joy because my experiment had yielded results. On the seventh day, I went to observe it again, and this time I made a new discovery: the roots of the small onions grew into a "fan shape". What was going on? At this time, I remembered what my mother told me about the conditions for plant growth. I understand, it may be because the "fan tail" side does not have enough water and sunlight as the "fan head" side, so the roots of the onions grow unevenly. A problem was solved by me, and I felt happy and sweet like tasting the fruit of victory.

My gains from this experiment are not small! I not only learned that onions can grow in water, but also that plants need sunlight, water, air, fertilizer and temperature to grow. Next time, I will do another experiment, and maybe I will make new discoveries. My Experimental Composition 12

My teacher is very special. It is neither a person nor an animal, but a plant.

Three years ago in the spring, my grandma planted a grapevine. At first, I felt very fresh, so I watered it according to the prescribed time every day. But over time, I gradually felt that my talent was dry, so I started to be lazy.

I pass by the vine every day, and slowly it becomes invisible, so it becomes languid. God seemed to see it as pitiful, so it rained abundantly. After the heavy rain, the grapevine gradually regained its vitality, but after a few days, I found that its leaves were either turning yellow or falling off.

After a long period of no watering, the grape branches finally withered completely. It was winter at this time, and the snowflakes fell down, falling on the tree trunks and on the yellow leaves.

When spring comes the next year, the ice and snow gradually disappear, turning into snow and soaking into the soil. The sun shines on the trunk. I don't know if the grapevine is "pretending to be dead" or something, but it secretly grows new buds. I looked at it coming back to life, and it seemed as if an electric current passed through my heart, connecting me to the vine. I felt its vitality and the tenacity of the tree's life, which made my heart shake.

Spring is the season when all things revive. Spring seems to have a magical power. Is it the secret recipe for resurrection from the dead? Or did the plants take a long nap, awakened by the spring thunder, and know that spring is here to take root deeply in the soil, poke their heads out and work hard to grow? The spirit of plants is like a sun that can be seen but cannot be touched. They use what they can do to make the world beautiful.

How valuable is the perseverance and perseverance of plants that are not afraid of difficulties. If everyone were like plants, the world would be more wonderful. My Experimental Composition 13

Our school is beautiful in my eyes. I don’t know what others think.

When we walk into the main entrance of our school, the first thing that catches our eyes is a few big shining characters. On the right is the gallery, which allows us to know a lot of ancient and modern knowledge. On the left is the entrance to the stadium. The gate, inside the gate is a 400-meter track, where we hold sports meets, and there is a rectangular sand pit, where we take physical education classes. Various flowers and trees are also planted on both sides. Walking up the steps, we arrived at our campus. On both sides of the road in the campus, there were children's signs with famous quotes to inspire students to learn. There is a plum blossom-shaped pool in the middle of the campus. There are rockeries and a waterwheel in it. The water from the waterwheel flows into the pool. The small fish in the pool swim freely back and forth. There are also lotus flowers in it. The lotus flowers are on the lotus leaves. It looks even more beautiful against the background.

Various flowers and trees are planted on both sides. In spring, the trees sprout. Walking up the steps, we arrived at our campus. On both sides of the road in the campus, there were children's signs with famous quotes to inspire students to learn. There is a plum blossom-shaped pool in the middle of the campus, with rockeries and a waterwheel inside. The water from the waterwheel flows into the pool. The ice in the pool melts in the spring, and the small fish inside swim freely back and forth.

To the right of the plum blossom-shaped pool is our teaching building, where we learn knowledge every day. When you walk in, you will hear the sound of reading and the teachers giving us lectures. We learn a lot here.

The people eating at the small dining table are under the martial arts dance training hall. There is no sound coming from the martial arts dance training hall.

Our school is very big, with teaching buildings, a national pole where we raise the national flag, and... our school is beautiful, and the teachers of the school have cultivated many outstanding talents here. .

Our school is beautiful. My Experimental Composition 14

Everyone has boiled round eggs before! Your cooking method must be to put the eggs in a pot, pour some water, and cook them on the gas. But my method of cooking eggs is different. As long as the water is turned off and the turkey eggs are turned off, the eggs will be cooked. The boiled eggs will be like jelly. Same.

This afternoon, our homework is to boil eggs simply.

When I got home, I told my mother the exciting news. I said happily: "Mom, I have learned a very simple way to boil eggs." My mother asked me puzzledly: In addition to boiling eggs like we usually do, how else can I cook them? What about eggs? My method of boiling eggs is very simple and does not waste electricity. I took out a small iron basin, poured some cold water into it, put it on the stove and waited for ten minutes, and then put the boiling hot water aside. , took two round eggs, carefully put the eggs in and closed the lid to prevent them from breathing. The steam swirled inside, which could steam the eggs. After about 15 minutes, I took out the round eggs. When it comes out, the hot eggs are ready! I cracked the egg shell and carefully opened the egg skin. I shook it gently and the egg moved around like jelly. It was different from the usual boiled eggs. I slowly broke the egg open. The egg yolk was tender and tender, and I couldn't wait to take a bite. I tasted the egg yolk with relish. The egg yolk was very delicious in my mouth. When my brother saw it, he wolfed down the egg and said while eating: This egg is the most tender and fragrant egg I have ever tasted and my easy boiled egg was a success.

My simple method of boiling eggs is so successful. I will make more. These eggs are so delicious.

In this way, electricity is not wasted, and the water used to turn the eggs can be used for many things, so there is no need to waste water! My Experimental Composition 15

I have a science laboratory, which is 3 meters long and 4 meters wide. The outside of the science laboratory is very ordinary, but you will never expect it inside. Once you enter, the green wallpaper covers the ordinary The walls seem to have been put on a beautiful new dress. There are also pictures of many scientists hanging on the walls, such as Einstein, Edison, etc.

There are not only beautiful walls in the laboratory, but also a rectangular table. The table is blue, and there are many strange scientific supplies on it, as well as a magical tool box. Beakers, potassium permanganate, experimental cups, etc. They sat quietly on the blue table, as if they wanted me to use them, and there was a stick beside them.

Open the magical tool box, and you will find that this magical tool box is divided into three parts. The first part contains some dangerous liquids, the second part contains many strange solids, and the third part contains Stirring stick, etc., these three parts together make a magical tool box.

These members are all my good helpers.

Whenever the science teacher assigned homework about dissolution, I was in trouble. I muttered, and my words were heard by Brother Beaker. He hurriedly said: "Little master, let me help you." Let’s go!” He quickly ran to the sink, turned on the faucet, filled his stomach, and said, “I’m very useful!” Because every time I use Beaker Brother, Beaker Brother becomes dirty. many.

Before I wanted to dissolve something, the potassium permanganate sister would run out and say: "Little master, use me!" So I took out a potassium permanganate with my gloves. I put potassium permanganate into the water, and it suddenly turned into lavender and dark purple, like a smoke bomb. The potassium permanganate sister seemed to be saying: "Wow! The hot spring is so comfortable."

Whenever I want to stir, Grandpa Stirring Stick will slowly come out and say: "I'm here to help you, little master.

So he stirred it like crazy and said, "It's so fun!" ”

Thank you, my helpers, for bringing me fun every day!