I can't believe it's Easter and this pretty flower doesn't have a chocolate egg. Please give this sunflower an egg Mr. Easter Bunny.
I'm very sorry DeDe, but I can't! Plants make their own food, so they can't enjoy my eggs!
That is not what I mean! This sunflower doesn't use cooking, it uses photosynthesis. Let me show you how it works.
I can cook too, but I still got a chocolate. That is a bad excuse!
Phase I
WOAH! So because it needs the sun's energy, what happens next must be a light dependent reaction.
It is! That light energy strikes the plant, powering up and creating high energy electrons. These electrons cause water to split, forming H+ ions and releasing oxygen for YOU and ME to breathe!
This is a cool visual of light energy Mr. Easter Bunny!!
But oxygen isn't food, so I still don't see why they can't have an Easter egg to munch on.
Photosynthesis occurs in the chloroplast of the plant's cells. The chloroplast has a pigment called chlorophyll that absorbs sunlight and uses it for energy .
Of course oxygen isn't their food DeDe! We're only halfway through the process. Now, onto the light independent reaction!
*yawns* Oh dear, I've forgotten to mention something important. Remember those H+ ions from the disbanded water? Those and the high energy electrons make ATP and NADPH, which are used in phase ii of photosynthesis.
Now is no time for sleeping. I HAVE TO KNOW HOW PHOTOSYNTHESIS ENDS!!
I can't believe it's Easter and this pretty flower doesn't have a chocolate egg. Please give this sunflower an egg Mr. Easter Bunny.
I'm very sorry DeDe, but I can't! Plants make their own food, so they can't enjoy my eggs!
That is not what I mean! This sunflower doesn't use cooking, it uses photosynthesis. Let me show you how it works.
I can cook too, but I still got a chocolate. That is a bad excuse!
Phase I
WOAH! So because it needs the sun's energy, what happens next must be a light dependent reaction.
It is! That light energy strikes the plant, powering up and creating high energy electrons. These electrons cause water to split, forming H+ ions and releasing oxygen for YOU and ME to breathe!
This is a cool visual of light energy Mr. Easter Bunny!!
But oxygen isn't food, so I still don't see why they can't have an Easter egg to munch on.
Photosynthesis occurs in the chloroplast of the plant's cells. The chloroplast has a pigment called chlorophyll that absorbs sunlight and uses it for energy .
Of course oxygen isn't their food DeDe! We're only halfway through the process. Now, onto the light independent reaction!
*yawns* Oh dear, I've forgotten to mention something important. Remember those H+ ions from the disbanded water? Those and the high energy electrons make ATP and NADPH, which are used in phase ii of photosynthesis.
Now is no time for sleeping. I HAVE TO KNOW HOW PHOTOSYNTHESIS ENDS!!
I can't believe it's Easter and this pretty flower doesn't have a chocolate egg. Please give this sunflower an egg Mr. Easter Bunny.
I'm very sorry DeDe, but I can't! Plants make their own food, so they can't enjoy my eggs!
That is not what I mean! This sunflower doesn't use cooking, it uses photosynthesis. Let me show you how it works.
I can cook too, but I still got a chocolate. That is a bad excuse!
Phase I
WOAH! So because it needs the sun's energy, what happens next must be a light dependent reaction.
It is! That light energy strikes the plant, powering up and creating high energy electrons. These electrons cause water to split, forming H+ ions and releasing oxygen for YOU and ME to breathe!
This is a cool visual of light energy Mr. Easter Bunny!!
But oxygen isn't food, so I still don't see why they can't have an Easter egg to munch on.
Photosynthesis occurs in the chloroplast of the plant's cells. The chloroplast has a pigment called chlorophyll that absorbs sunlight and uses it for energy .
Of course oxygen isn't their food DeDe! We're only halfway through the process. Now, onto the light independent reaction!
*yawns* Oh dear, I've forgotten to mention something important. Remember those H+ ions from the disbanded water? Those and the high energy electrons make ATP and NADPH, which are used in phase ii of photosynthesis.
Now is no time for sleeping. I HAVE TO KNOW HOW PHOTOSYNTHESIS ENDS!!
I can't believe it's Easter and this pretty flower doesn't have a chocolate egg. Please give this sunflower an egg Mr. Easter Bunny.
I'm very sorry DeDe, but I can't! Plants make their own food, so they can't enjoy my eggs!
That is not what I mean! This sunflower doesn't use cooking, it uses photosynthesis. Let me show you how it works.
I can cook too, but I still got a chocolate. That is a bad excuse!
Phase I
WOAH! So because it needs the sun's energy, what happens next must be a light dependent reaction.
It is! That light energy strikes the plant, powering up and creating high energy electrons. These electrons cause water to split, forming H+ ions and releasing oxygen for YOU and ME to breathe!
This is a cool visual of light energy Mr. Easter Bunny!!
But oxygen isn't food, so I still don't see why they can't have an Easter egg to munch on.
Photosynthesis occurs in the chloroplast of the plant's cells. The chloroplast has a pigment called chlorophyll that absorbs sunlight and uses it for energy .
Of course oxygen isn't their food DeDe! We're only halfway through the process. Now, onto the light independent reaction!
*yawns* Oh dear, I've forgotten to mention something important. Remember those H+ ions from the disbanded water? Those and the high energy electrons make ATP and NADPH, which are used in phase ii of photosynthesis.
Now is no time for sleeping. I HAVE TO KNOW HOW PHOTOSYNTHESIS ENDS!!
I can't believe it's Easter and this pretty flower doesn't have a chocolate egg. Please give this sunflower an egg Mr. Easter Bunny.
I'm very sorry DeDe, but I can't! Plants make their own food, so they can't enjoy my eggs!
That is not what I mean! This sunflower doesn't use cooking, it uses photosynthesis. Let me show you how it works.
I can cook too, but I still got a chocolate. That is a bad excuse!
Phase I
WOAH! So because it needs the sun's energy, what happens next must be a light dependent reaction.
It is! That light energy strikes the plant, powering up and creating high energy electrons. These electrons cause water to split, forming H+ ions and releasing oxygen for YOU and ME to breathe!
This is a cool visual of light energy Mr. Easter Bunny!!
But oxygen isn't food, so I still don't see why they can't have an Easter egg to munch on.
Photosynthesis occurs in the chloroplast of the plant's cells. The chloroplast has a pigment called chlorophyll that absorbs sunlight and uses it for energy .
Of course oxygen isn't their food DeDe! We're only halfway through the process. Now, onto the light independent reaction!
*yawns* Oh dear, I've forgotten to mention something important. Remember those H+ ions from the disbanded water? Those and the high energy electrons make ATP and NADPH, which are used in phase ii of photosynthesis.
Now is no time for sleeping. I HAVE TO KNOW HOW PHOTOSYNTHESIS ENDS!!
I can't believe it's Easter and this pretty flower doesn't have a chocolate egg. Please give this sunflower an egg Mr. Easter Bunny.
I'm very sorry DeDe, but I can't! Plants make their own food, so they can't enjoy my eggs!
That is not what I mean! This sunflower doesn't use cooking, it uses photosynthesis. Let me show you how it works.
I can cook too, but I still got a chocolate. That is a bad excuse!
Phase I
WOAH! So because it needs the sun's energy, what happens next must be a light dependent reaction.
It is! That light energy strikes the plant, powering up and creating high energy electrons. These electrons cause water to split, forming H+ ions and releasing oxygen for YOU and ME to breathe!
This is a cool visual of light energy Mr. Easter Bunny!!
But oxygen isn't food, so I still don't see why they can't have an Easter egg to munch on.
Photosynthesis occurs in the chloroplast of the plant's cells. The chloroplast has a pigment called chlorophyll that absorbs sunlight and uses it for energy .
Of course oxygen isn't their food DeDe! We're only halfway through the process. Now, onto the light independent reaction!
*yawns* Oh dear, I've forgotten to mention something important. Remember those H+ ions from the disbanded water? Those and the high energy electrons make ATP and NADPH, which are used in phase ii of photosynthesis.
Now is no time for sleeping. I HAVE TO KNOW HOW PHOTOSYNTHESIS ENDS!!
I can't believe it's Easter and this pretty flower doesn't have a chocolate egg. Please give this sunflower an egg Mr. Easter Bunny.
I'm very sorry DeDe, but I can't! Plants make their own food, so they can't enjoy my eggs!
That is not what I mean! This sunflower doesn't use cooking, it uses photosynthesis. Let me show you how it works.
I can cook too, but I still got a chocolate. That is a bad excuse!
Phase I
WOAH! So because it needs the sun's energy, what happens next must be a light dependent reaction.
It is! That light energy strikes the plant, powering up and creating high energy electrons. These electrons cause water to split, forming H+ ions and releasing oxygen for YOU and ME to breathe!
This is a cool visual of light energy Mr. Easter Bunny!!
But oxygen isn't food, so I still don't see why they can't have an Easter egg to munch on.
Photosynthesis occurs in the chloroplast of the plant's cells. The chloroplast has a pigment called chlorophyll that absorbs sunlight and uses it for energy .
Of course oxygen isn't their food DeDe! We're only halfway through the process. Now, onto the light independent reaction!
*yawns* Oh dear, I've forgotten to mention something important. Remember those H+ ions from the disbanded water? Those and the high energy electrons make ATP and NADPH, which are used in phase ii of photosynthesis.
Now is no time for sleeping. I HAVE TO KNOW HOW PHOTOSYNTHESIS ENDS!!