itch.io

That url is a joke text i putted chill😭🙏🙏

Im in your walls btw

I MIGHT add it, Ms, Moon can appear, but the next update is gonna take more time then, if I Don't have enough time, it will NOT go on the update, if it does, good. BUT if I don't add it, it, it will release on a future, we'll see if I have enough time

Is there

YOU BRAINROTTED -

yum

what does butt mean🤔

( ok I'll stop😭)

um why does simon phase 1 have that sound?

yeah i know the old sound but why in phase 1, wasn't it old phase 2 simon's sound?

me with 150 sprunki sb3 files:

🤑

.

is a imagee

omg

but i want it  to be

im thinking of doing a mod where sprunki becomes hell.

well you see someone saved the 0.9 update file before pyramix turned remixes off so thanks to the guy i got it

hey buddy wanna get your eyes checked? i can pay for it :)

( no seriously is already there )

I love eating orens

I mean idk if I want to because technically I want the game to run smoother, and with more qualities and stuff, and is obvious what I'm gonna say, this game is NOT for phones, ut only works on good phones, if your phone is a advanced one, it will fit perfectly, if it's a modern one like mine and probably yours too, the game will fit but sometimes animations or characters can cause fails, if you have an old phone, wish to your dreams you cant play it, unless you clear the trash memory your phone has. so yeah This game can be for phones but you have limited-time before a crash occurs, later you can restart the page to keep playing, but in the point answering the question, you guys probably have modern phones, the ones we use through 2020 - 2025 etc etc, if it fails immediately, you can clear your memory so your phone can run smoother, also delete ALL your apps that you don't want, if you did all that stuff and doesn't work then... what can I tell you?

nope, ima get it after i come from a birthday party i have to go.

its ok

GO CHECK

JUST GOT IT

thanks bro ;))

just added it!

just added the old and the new version

coming soon

sorry couldnt get it :(

( pyramix / aka the creator of sprunki pyramixed disabled the option to remix the project making it impossible to get the file

is that the newest version?

crazy

ITS ALREADY THEREEEEEE

just putted the phase 9000  in my pack (  also here is a spoiler for the next sprunki retake update )

ig new

WHAT-

done

😭🙏

Photosynthesis is the fundamental process by which plants, algae and some bacteria convert light energy into chemical energy. It is the basis of most food chains on Earth. Light energy comes from the Sun, and is captured by a green pigment called chlorophyll. Chlorophyll is found in chloroplasts, special organelles within plant cells. Chlorophyll mainly absorbs red and blue light, reflecting the green light, which gives plants their characteristic color. Other pigments, such as carotenoids, also help in the collection of light. Carbon dioxide (CO2) of air is an essential component in photosynthesis. Plants absorb this gas through small pores in their leaves called stomata. Water (H2O) is another vital ingredient, absorbed by the roots of the plant from the ground. This water travels through the conductive vessels to the leaves. Photosynthesis is divided into two main stages: the light phase and the dark phase. Both are crucial for energy conversion. The light phase occurs in the tilacoidal membranes of chloroplasts, where light energy is used to divide water molecules. This process releases oxygen (O2) as a byproduct. The luminous phase also produces ATP (adenosine tryphosphate) and NADPH, two energy carrier molecules that will be used in the next stage. These molecules store the energy of the light. The dark phase, or Calvin cycle, occurs in the stroma of the chloroplast, the fluid space surrounding the tilacoidal membranes. Here is not necessary directly. In the dark phase, carbon dioxide is incorporated into organic molecules, using the energy of the ATP and the NADPH generated in the light phase. This process is known as carbon fixation. The main organic molecule produced in the Calvin cycle is glucose (C6H12O6), a simple sugar that serves as a source of energy and raw material for the plant. Glucose can be used directly by the Plant as a source of energy, or stored in starch for later use. Starch is a form of energy storage. Photosynthesis is essential for life on Earth because it produces oxygen, a vital gas for breathing of most organisms. Without photosynthesis, there would be no free oxygen in the atmosphere. Photosynthesis is also key to the carbon cycle, since it removes carbon dioxide from the atmosphere and makes it organic compounds. This helps to regulate the global climate. Factors such as the intensity of light, temperature and water availability and carbon dioxide influence the photosynthesis rate. Optimal conditions maximize the efficiency of the process. Photosynthesis is a complex process that involves a large number of enzymes and proteins. Each stage is finely regulated to optimize efficiency. C4 plants and CAM are examples of evolutionary adaptations for photosynthesis in arid environments or with high light intensity. These plants have developed mechanisms to minimize water loss. The study of photosynthesis has important implications for the development of biofuels and the improvement of crop productivity. Genetic engineering can help optimize this process. Research in photosynthesis also seeks to understand how we can mitigate climate change by improving the ability of plants to capture carbon dioxide. In summary, photosynthesis is a vital process that supports life in Earth, turning solar energy into chemical energy available for all living beings. It is a really fascinating process!Photosynthesis is the fundamental process by which plants, algae and some bacteria convert light energy into chemical energy. It is the basis of most food chains on Earth. Light energy comes from the Sun, and is captured by a green pigment called chlorophyll. Chlorophyll is found in chloroplasts, special organelles within plant cells. Chlorophyll mainly absorbs red and blue light, reflecting the green light, which gives plants their characteristic color. Other pigments, such as carotenoids, also help in the collection of light. Carbon dioxide (CO2) of air is an essential component in photosynthesis. Plants absorb this gas through small pores in their leaves called stomata. Water (H2O) is another vital ingredient, absorbed by the roots of the plant from the ground. This water travels through the conductive vessels to the leaves. Photosynthesis is divided into two main stages: the light phase and the dark phase. Both are crucial for energy conversion. The light phase occurs in the tilacoidal membranes of chloroplasts, where light energy is used to divide water molecules. This process releases oxygen (O2) as a byproduct. The luminous phase also produces ATP (adenosine tryphosphate) and NADPH, two energy carrier molecules that will be used in the next stage. These molecules store the energy of the light. The dark phase, or Calvin cycle, occurs in the stroma of the chloroplast, the fluid space surrounding the tilacoidal membranes. Here is not necessary directly. In the dark phase, carbon dioxide is incorporated into organic molecules, using the energy of the ATP and the NADPH generated in the light phase. This process is known as carbon fixation. The main organic molecule produced in the Calvin cycle is glucose (C6H12O6), a simple sugar that serves as a source of energy and raw material for the plant. Glucose can be used directly by the Plant as a source of energy, or stored in starch for later use. Starch is a form of energy storage. Photosynthesis is essential for life on Earth because it produces oxygen, a vital gas for breathing of most organisms. Without photosynthesis, there would be no free oxygen in the atmosphere. Photosynthesis is also key to the carbon cycle, since it removes carbon dioxide from the atmosphere and makes it organic compounds. This helps to regulate the global climate. Factors such as the intensity of light, temperature and water availability and carbon dioxide influence the photosynthesis rate. Optimal conditions maximize the efficiency of the process. Photosynthesis is a complex process that involves a large number of enzymes and proteins. Each stage is finely regulated to optimize efficiency. C4 plants and CAM are examples of evolutionary adaptations for photosynthesis in arid environments or with high light intensity. These plants have developed mechanisms to minimize water loss. The study of photosynthesis has important implications for the development of biofuels and the improvement of crop productivity. Genetic engineering can help optimize this process. Research in photosynthesis also seeks to understand how we can mitigate climate change by improving the ability of plants to capture carbon dioxide. In summary, photosynthesis is a vital process that supports life in Earth, turning solar energy into chemical energy available for all living beings. It is a really fascinating process!La fotosíntesis es el proceso fundamental por el cual las plantas, algas y algunas bacterias convierten la energía lumínica en energía química. Es la base de la mayoría de las cadenas alimentarias en la Tierra.La energía lumínica proviene del sol, y es capturada por un pigmento verde llamado clorofila. La clorofila se encuentra en los cloroplastos, orgánulos especiales dentro de las células vegetales.La clorofila absorbe principalmente la luz roja y azul, reflejando la luz verde, lo que le da a las plantas su color característico. Otros pigmentos, como los carotenoides, también ayudan en la captación de luz.El dióxido de carbono (CO2) del aire es un componente esencial en la fotosíntesis. Las plantas absorben este gas a través de pequeños poros en sus hojas llamados estomas.El agua (H2O) es otro ingrediente vital, absorbido por las raíces de la planta desde el suelo. Esta agua viaja a través de los vasos conductores hasta las hojas.La fotosíntesis se divide en dos etapas principales: la fase luminosa y la fase oscura. Ambas son cruciales para la conversión de energía.La fase luminosa ocurre en las membranas tilacoidales de los cloroplastos, donde se utiliza la energía lumínica para dividir las moléculas de agua. Este proceso libera oxígeno (O2) como subproducto.La fase luminosa también produce ATP (adenosín trifosfato) y NADPH, dos moléculas portadoras de energía que se utilizarán en la siguiente etapa. Estas moléculas almacenan la energía de la luz.La fase oscura, o ciclo de Calvin, ocurre en el estroma del cloroplasto, el espacio fluido que rodea las membranas tilacoidales. Aquí no se necesita luz directamente.En la fase oscura, el dióxido de carbono se incorpora a moléculas orgánicas, utilizando la energía del ATP y el NADPH generados en la fase luminosa. Este proceso se conoce como fijación del carbono.La principal molécula orgánica producida en el ciclo de Calvin es la glucosa (C6H12O6), un azúcar simple que sirve como fuente de energía y materia prima para la planta.La glucosa puede ser utilizada directamente por la planta como fuente de energía, o almacenada en forma de almidón para su uso posterior. El almidón es una forma de almacenamiento de energía.La fotosíntesis es esencial para la vida en la Tierra porque produce oxígeno, un gas vital para la respiración de la mayoría de los organismos. Sin fotosíntesis, no habría oxígeno libre en la atmósfera.La fotosíntesis también es clave para el ciclo del carbono, ya que retira dióxido de carbono de la atmósfera y lo convierte en compuestos orgánicos. Esto ayuda a regular el clima global.Factores como la intensidad de la luz, la temperatura y la disponibilidad de agua y dióxido de carbono influyen en la tasa de fotosíntesis. CPhotosynthesis is the fundamental process by which plants, algae and some bacteria convert light energy into chemical energy. It is the basis of most food chains on Earth. Light energy comes from the Sun, and is captured by a green pigment called chlorophyll. Chlorophyll is found in chloroplasts, special organelles within plant cells. Chlorophyll mainly absorbs red and blue light, reflecting the green light, which gives plants their characteristic color. Other pigments, such as carotenoids, also help in the collection of light. Carbon dioxide (CO2) of air is an essential component in photosynthesis. Plants absorb this gas through small pores in their leaves called stomata. Water (H2O) is another vital ingredient, absorbed by the roots of the plant from the ground. This water travels through the conductive vessels to the leaves. Photosynthesis is divided into two main stages: the light phase and the dark phase. Both are crucial for energy conversion. The light phase occurs in the tilacoidal membranes of chloroplasts, where light energy is used to divide water molecules. This process releases oxygen (O2) as a byproduct. The luminous phase also produces ATP (adenosine tryphosphate) and NADPH, two energy carrier molecules that will be used in the next stage. These molecules store the energy of the light. The dark phase, or Calvin cycle, occurs in the stroma of the chloroplast, the fluid space surrounding the tilacoidal membranes. Here is not necessary directly. In the dark phase, carbon dioxide is incorporated into organic molecules, using the energy of the ATP and the NADPH generated in the light phase. This process is known as carbon fixation. The main organic molecule produced in the Calvin cycle is glucose (C6H12O6), a simple sugar that serves as a source of energy and raw material for the plant. Glucose can be used directly by the Plant as a source of energy, or stored in starch for later use. Starch is a form of energy storage. Photosynthesis is essential for life on Earth because it produces oxygen, a vital gas for breathing of most organisms. Without photosynthesis, there would be no free oxygen in the atmosphere. Photosynthesis is also key to the carbon cycle, since it removes carbon dioxide from the atmosphere and makes it organic compounds. This helps to regulate the global climate. Factors such as the intensity of light, temperature and water availability and carbon dioxide influence the photosynthesis rate. Optimal conditions maximize the efficiency of the process. Photosynthesis is a complex process that involves a large number of enzymes and proteins. Each stage is finely regulated to optimize efficiency. C4 plants and CAM are examples of evolutionary adaptations for photosynthesis in arid environments or with high light intensity. These plants have developed mechanisms to minimize water loss. The study of photosynthesis has important implications for the development of biofuels and the improvement of crop productivity. Genetic engineering can help optimize this process. Research in photosynthesis also seeks to understand how we can mitigate climate change by improving the ability of plants to capture carbon dioxide. In summary, photosynthesis is a vital process that supports life in Earth, turning solar energy into chemical energy available for all living beings. It is a really fascinating process!Photosynthesis is the fundamental process by which plants, algae and some bacteria convert light energy into chemical energy. It is the basis of most food chains on Earth. Light energy comes from the Sun, and is captured by a green pigment called chlorophyll. Chlorophyll is found in chloroplasts, special organelles within plant cells. Chlorophyll mainly absorbs red and blue light, reflecting the green light, which gives plants their characteristic color. Other pigments, such as carotenoids, also help in the collection of light. Carbon dioxide (CO2) of air is an essential component in photosynthesis. Plants absorb this gas through small pores in their leaves called stomata. Water (H2O) is another vital ingredient, absorbed by the roots of the plant from the ground. This water travels through the conductive vessels to the leaves. Photosynthesis is divided into two main stages: the light phase and the dark phase. Both are crucial for energy conversion. The light phase occurs in the tilacoidal membranes of chloroplasts, where light energy is used to divide water molecules. This process releases oxygen (O2) as a byproduct. The luminous phase also produces ATP (adenosine tryphosphate) and NADPH, two energy carrier molecules that will be used in the next stage. These molecules store the energy of the light. The dark phase, or Calvin cycle, occurs in the stroma of the chloroplast, the fluid space surrounding the tilacoidal membranes. Here is not necessary directly. In the dark phase, carbon dioxide is incorporated into organic molecules, using the energy of the ATP and the NADPH generated in the light phase. This process is known as carbon fixation. The main organic molecule produced in the Calvin cycle is glucose (C6H12O6), a simple sugar that serves as a source of energy and raw material for the plant. Glucose can be used directly by the Plant as a source of energy, or stored in starch for later use. Starch is a form of energy storage. Photosynthesis is essential for life on Earth because it produces oxygen, a vital gas for breathing of most organisms. Without photosynthesis, there would be no free oxygen in the atmosphere. Photosynthesis is also key to the carbon cycle, since it removes carbon dioxide from the atmosphere and makes it organic compounds. This helps to regulate the global climate. Factors such as the intensity of light, temperature and water availability and carbon dioxide influence the photosynthesis rate. Optimal conditions maximize the efficiency of the process. Photosynthesis is a complex process that involves a large number of enzymes and proteins. Each stage is finely regulated to optimize efficiency. C4 plants and CAM are examples of evolutionary adaptations for photosynthesis in arid environments or with high light intensity. These plants have developed mechanisms to minimize water loss. The study of photosynthesis has important implications for the development of biofuels and the improvement of crop productivity. Genetic engineering can help optimize this process. Research in photosynthesis also seeks to understand how we can mitigate climate change by improving the ability of plants to capture carbon dioxide. In summary, photosynthesis is a vital process that supports life in Earth, turning solar energy into chemical energy available for all living beings. It is a really fascinating process!La fotosíntesis es el proceso fundamental por el cual las plantas, algas y algunas bacterias convierten la energía lumínica en energía química. Es la base de la mayoría de las cadenas alimentarias en la Tierra.La energía lumínica proviene del sol, y es capturada por un pigmento verde llamado clorofila. La clorofila se encuentra en los cloroplastos, orgánulos especiales dentro de las células vegetales.La clorofila absorbe principalmente la luz roja y azul, reflejando la luz verde, lo que le da a las plantas su color característico. Otros pigmentos, como los carotenoides, también ayudan en la captación de luz.El dióxido de carbono (CO2) del aire es un componente esencial en la fotosíntesis. Las plantas absorben este gas a través de pequeños poros en sus hojas llamados estomas.El agua (H2O) es otro ingrediente vital, absorbido por las raíces de la planta desde el suelo. Esta agua viaja a través de los vasos conductores hasta las hojas.La fotosíntesis se divide en dos etapas principales: la fase luminosa y la fase oscura. Ambas son cruciales para la conversión de energía.La fase luminosa ocurre en las membranas tilacoidales de los cloroplastos, donde se utiliza la energía lumínica para dividir las moléculas de agua. Este proceso libera oxígeno (O2) como subproducto.La fase luminosa también produce ATP (adenosín trifosfato) y NADPH, dos moléculas portadoras de energía que se utilizarán en la siguiente etapa. Estas moléculas almacenan la energía de la luz.La fase oscura, o ciclo de Calvin, ocurre en el estroma del cloroplasto, el espacio fluido que rodea las membranas tilacoidales. Aquí no se necesita luz directamente.En la fase oscura, el dióxido de carbono se incorpora a moléculas orgánicas, utilizando la energía del ATP y el NADPH generados en la fase luminosa. Este proceso se conoce como fijación del carbono.La principal molécula orgánica producida en el ciclo de Calvin es la glucosa (C6H12O6), un azúcar simple que sirve como fuente de energía y materia prima para la planta.La glucosa puede ser utilizada directamente por la planta como fuente de energía, o almacenada en forma de almidón para su uso posterior. El almidón es una forma de almacenamiento de energía.La fotosíntesis es esencial para la vida en la Tierra porque produce oxígeno, un gas vital para la respiración de la mayoría de los organismos. Sin fotosíntesis, no habría oxígeno libre en la atmósfera.La fotosíntesis también es clave para el ciclo del carbono, ya que retira dióxido de carbono de la atmósfera y lo convierte en compuestos orgánicos. Esto ayuda a regular el clima global.Factores como la intensidad de la luz, la temperatura y la disponibilidad de agua y dióxido de carbono influyen en la tasa de fotosíntesis. C

😭

Somehow the designs and their bodies make me laugh instead of get scared like bro look at sky his mouth looks like it's screaming for help😭🙏

Photosynthesis is the fundamental process by which plants, algae and some bacteria convert light energy into chemical energy. It is the basis of most food chains on Earth. Light energy comes from the Sun, and is captured by a green pigment called chlorophyll. Chlorophyll is found in chloroplasts, special organelles within plant cells. Chlorophyll mainly absorbs red and blue light, reflecting the green light, which gives plants their characteristic color. Other pigments, such as carotenoids, also help in the collection of light. Carbon dioxide (CO2) of air is an essential component in photosynthesis. Plants absorb this gas through small pores in their leaves called stomata. Water (H2O) is another vital ingredient, absorbed by the roots of the plant from the ground. This water travels through the conductive vessels to the leaves. Photosynthesis is divided into two main stages: the light phase and the dark phase. Both are crucial for energy conversion. The light phase occurs in the tilacoidal membranes of chloroplasts, where light energy is used to divide water molecules. This process releases oxygen (O2) as a byproduct. The luminous phase also produces ATP (adenosine tryphosphate) and NADPH, two energy carrier molecules that will be used in the next stage. These molecules store the energy of the light. The dark phase, or Calvin cycle, occurs in the stroma of the chloroplast, the fluid space surrounding the tilacoidal membranes. Here is not necessary directly. In the dark phase, carbon dioxide is incorporated into organic molecules, using the energy of the ATP and the NADPH generated in the light phase. This process is known as carbon fixation. The main organic molecule produced in the Calvin cycle is glucose (C6H12O6), a simple sugar that serves as a source of energy and raw material for the plant. Glucose can be used directly by the Plant as a source of energy, or stored in starch for later use. Starch is a form of energy storage. Photosynthesis is essential for life on Earth because it produces oxygen, a vital gas for breathing of most organisms. Without photosynthesis, there would be no free oxygen in the atmosphere. Photosynthesis is also key to the carbon cycle, since it removes carbon dioxide from the atmosphere and makes it organic compounds. This helps to regulate the global climate. Factors such as the intensity of light, temperature and water availability and carbon dioxide influence the photosynthesis rate. Optimal conditions maximize the efficiency of the process. Photosynthesis is a complex process that involves a large number of enzymes and proteins. Each stage is finely regulated to optimize efficiency. C4 plants and CAM are examples of evolutionary adaptations for photosynthesis in arid environments or with high light intensity. These plants have developed mechanisms to minimize water loss. The study of photosynthesis has important implications for the development of biofuels and the improvement of crop productivity. Genetic engineering can help optimize this process. Research in photosynthesis also seeks to understand how we can mitigate climate change by improving the ability of plants to capture carbon dioxide. In summary, photosynthesis is a vital process that supports life in Earth, turning solar energy into chemical energy available for all living beings. It is a really fascinating process!