Two friends are taking a walk through a field.
How do these plants and animals eat and grow? It's not like they can eat a Big Mac.
Well through photosynthesis and cellular respiration.
Photo-what?
I can help!
This is my friend, Ms. Sunny. She can explain photosynthesis to you.
Plants take in carbon dioxide and water, as well as sunlight energy, which is captured through a green pigment called chlorophyll on the leaves of plants.
Sunlight Energy
Water
Carbon Dioxide
To Chloroplast
Oxygen
Glucose
The sunlight, water, and carbon dioxide (or raw materials) enter a plant cell and travel into the chloroplast organelle. Here in stage 1, the water, with the help of sun energy, separates to make hydrogen, This hydrogen then goes to stage 2, where hydrogen and carbon dioxide create oxygen and glucose.
Cellular Respiration
GLUCOSE STORAGE
Glucose is a type of sugar, and an important one! Glucose can be put into storage and be used later. But it can also be used for cellular respiration to make energy. This glucose is basically our food!
That's where cellular respiration comes into play. I can help explain! We animals are experts.
Thanks for the help. But how do organisms make power for themselves?
Two friends are taking a walk through a field.
How do these plants and animals eat and grow? It's not like they can eat a Big Mac.
Well through photosynthesis and cellular respiration.
Photo-what?
I can help!
This is my friend, Ms. Sunny. She can explain photosynthesis to you.
Plants take in carbon dioxide and water, as well as sunlight energy, which is captured through a green pigment called chlorophyll on the leaves of plants.
Sunlight Energy
Water
Carbon Dioxide
To Chloroplast
Oxygen
Glucose
The sunlight, water, and carbon dioxide (or raw materials) enter a plant cell and travel into the chloroplast organelle. Here in stage 1, the water, with the help of sun energy, separates to make hydrogen, This hydrogen then goes to stage 2, where hydrogen and carbon dioxide create oxygen and glucose.
Cellular Respiration
GLUCOSE STORAGE
Glucose is a type of sugar, and an important one! Glucose can be put into storage and be used later. But it can also be used for cellular respiration to make energy. This glucose is basically our food!
That's where cellular respiration comes into play. I can help explain! We animals are experts.
Thanks for the help. But how do organisms make power for themselves?
Two friends are taking a walk through a field.
How do these plants and animals eat and grow? It's not like they can eat a Big Mac.
Well through photosynthesis and cellular respiration.
Photo-what?
I can help!
This is my friend, Ms. Sunny. She can explain photosynthesis to you.
Plants take in carbon dioxide and water, as well as sunlight energy, which is captured through a green pigment called chlorophyll on the leaves of plants.
Sunlight Energy
Water
Carbon Dioxide
To Chloroplast
Oxygen
Glucose
The sunlight, water, and carbon dioxide (or raw materials) enter a plant cell and travel into the chloroplast organelle. Here in stage 1, the water, with the help of sun energy, separates to make hydrogen, This hydrogen then goes to stage 2, where hydrogen and carbon dioxide create oxygen and glucose.
Cellular Respiration
GLUCOSE STORAGE
Glucose is a type of sugar, and an important one! Glucose can be put into storage and be used later. But it can also be used for cellular respiration to make energy. This glucose is basically our food!
That's where cellular respiration comes into play. I can help explain! We animals are experts.
Thanks for the help. But how do organisms make power for themselves?
Two friends are taking a walk through a field.
How do these plants and animals eat and grow? It's not like they can eat a Big Mac.
Well through photosynthesis and cellular respiration.
Photo-what?
I can help!
This is my friend, Ms. Sunny. She can explain photosynthesis to you.
Plants take in carbon dioxide and water, as well as sunlight energy, which is captured through a green pigment called chlorophyll on the leaves of plants.
Sunlight Energy
Water
Carbon Dioxide
To Chloroplast
Oxygen
Glucose
The sunlight, water, and carbon dioxide (or raw materials) enter a plant cell and travel into the chloroplast organelle. Here in stage 1, the water, with the help of sun energy, separates to make hydrogen, This hydrogen then goes to stage 2, where hydrogen and carbon dioxide create oxygen and glucose.
Cellular Respiration
GLUCOSE STORAGE
Glucose is a type of sugar, and an important one! Glucose can be put into storage and be used later. But it can also be used for cellular respiration to make energy. This glucose is basically our food!
That's where cellular respiration comes into play. I can help explain! We animals are experts.
Thanks for the help. But how do organisms make power for themselves?
Two friends are taking a walk through a field.
How do these plants and animals eat and grow? It's not like they can eat a Big Mac.
Well through photosynthesis and cellular respiration.
Photo-what?
I can help!
This is my friend, Ms. Sunny. She can explain photosynthesis to you.
Plants take in carbon dioxide and water, as well as sunlight energy, which is captured through a green pigment called chlorophyll on the leaves of plants.
Sunlight Energy
Water
Carbon Dioxide
To Chloroplast
Oxygen
Glucose
The sunlight, water, and carbon dioxide (or raw materials) enter a plant cell and travel into the chloroplast organelle. Here in stage 1, the water, with the help of sun energy, separates to make hydrogen, This hydrogen then goes to stage 2, where hydrogen and carbon dioxide create oxygen and glucose.
Cellular Respiration
GLUCOSE STORAGE
Glucose is a type of sugar, and an important one! Glucose can be put into storage and be used later. But it can also be used for cellular respiration to make energy. This glucose is basically our food!
That's where cellular respiration comes into play. I can help explain! We animals are experts.
Thanks for the help. But how do organisms make power for themselves?
Two friends are taking a walk through a field.
How do these plants and animals eat and grow? It's not like they can eat a Big Mac.
Well through photosynthesis and cellular respiration.
Photo-what?
I can help!
This is my friend, Ms. Sunny. She can explain photosynthesis to you.
Plants take in carbon dioxide and water, as well as sunlight energy, which is captured through a green pigment called chlorophyll on the leaves of plants.
Sunlight Energy
Water
Carbon Dioxide
To Chloroplast
Oxygen
Glucose
The sunlight, water, and carbon dioxide (or raw materials) enter a plant cell and travel into the chloroplast organelle. Here in stage 1, the water, with the help of sun energy, separates to make hydrogen, This hydrogen then goes to stage 2, where hydrogen and carbon dioxide create oxygen and glucose.
Cellular Respiration
GLUCOSE STORAGE
Glucose is a type of sugar, and an important one! Glucose can be put into storage and be used later. But it can also be used for cellular respiration to make energy. This glucose is basically our food!
That's where cellular respiration comes into play. I can help explain! We animals are experts.
Thanks for the help. But how do organisms make power for themselves?
Two friends are taking a walk through a field.
How do these plants and animals eat and grow? It's not like they can eat a Big Mac.
Well through photosynthesis and cellular respiration.
Photo-what?
I can help!
This is my friend, Ms. Sunny. She can explain photosynthesis to you.
Plants take in carbon dioxide and water, as well as sunlight energy, which is captured through a green pigment called chlorophyll on the leaves of plants.
Sunlight Energy
Water
Carbon Dioxide
To Chloroplast
Oxygen
Glucose
The sunlight, water, and carbon dioxide (or raw materials) enter a plant cell and travel into the chloroplast organelle. Here in stage 1, the water, with the help of sun energy, separates to make hydrogen, This hydrogen then goes to stage 2, where hydrogen and carbon dioxide create oxygen and glucose.
Cellular Respiration
GLUCOSE STORAGE
Glucose is a type of sugar, and an important one! Glucose can be put into storage and be used later. But it can also be used for cellular respiration to make energy. This glucose is basically our food!
That's where cellular respiration comes into play. I can help explain! We animals are experts.
Thanks for the help. But how do organisms make power for themselves?