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Why we can't jump without bending our knees?
Why can't helicopters reach mount everest?What is physics of a normal jump?Atoms in our bodyWhy can't Humans run any faster?“In-head” sound intensity with and without earplugsWhy do we lift our feet when we walk?Why do our ears pop?Why can you lift more weight with bad form?Why we can't write in air?Why scooters have short wheels?
$begingroup$
I observed it while trying to jump from my bed with my knees straightened and I failed to do it. I want to ask whether it is with all of us our it may be a medical issue with me?
Why we can't jump without bending our knees? I thought that the answer may be a biological one but I asked a doctor who suggested me to continue reading classical mechanics.
EDIT
I got something on this topic below:-
According to wikitionary jumping is "To propel oneself rapidly upward, downward and/or in any horizontal direction such that momentum causes the body to become airborne."
As I already mentioned that this question may seem as off topic but I think that this problem seriously involves physics!
newtonian-mechanics everyday-life soft-question biophysics
asked 9 hours ago
UniqueUnique
9291517
$endgroup$
|
show 4 more comments
$begingroup$
I observed it while trying to jump from my bed with my knees straightened and I failed to do it. I want to ask whether it is with all of us our it may be a medical issue with me?
Why we can't jump without bending our knees? I thought that the answer may be a biological one but I asked a doctor who suggested me to continue reading classical mechanics.
EDIT
I got something on this topic below:-
According to wikitionary jumping is "To propel oneself rapidly upward, downward and/or in any horizontal direction such that momentum causes the body to become airborne."
As I already mentioned that this question may seem as off topic but I think that this problem seriously involves physics!
newtonian-mechanics everyday-life soft-question biophysics
asked 9 hours ago
UniqueUnique
9291517
$endgroup$
1
$begingroup$
You can jump with your ankles alone, but you won’t get very high.
$endgroup$
– Gilbert
9 hours ago
1
$begingroup$
@Unique Gilbert is kind of correct, but I would hesitate to call it a "jump". You can exercise you calf muscles by elevating the back and arch of your foot. No bending of the knees is needed. If you elevate very quickly I suppose you might leave the ground by a very little amount and very briefly. But in my view, that's hardly a jump. So in my opinion, your question is still valid.
$endgroup$
– Bob D
9 hours ago
3
$begingroup$
I'm voting to close this question as off-topic because it's really a biology/physiology question rather than a physics one.
$endgroup$
– Kyle Kanos
8 hours ago
1
$begingroup$
@KyleKanos Not sure I agree. my2cts answer, which I agree with, does not invoke any element of biology or physiology that I can see.
$endgroup$
– Bob D
8 hours ago
1
$begingroup$
I was able to perform very small 'jumps' with straight knees using mainly the muscles of the feet, I believe they are called toe jumps, like in this video: youtube.com/watch?v=uL7XlhdBroE
$endgroup$
– Adam Latosiński
6 hours ago
|
show 4 more comments
$begingroup$
I observed it while trying to jump from my bed with my knees straightened and I failed to do it. I want to ask whether it is with all of us our it may be a medical issue with me?
Why we can't jump without bending our knees? I thought that the answer may be a biological one but I asked a doctor who suggested me to continue reading classical mechanics.
EDIT
I got something on this topic below:-
According to wikitionary jumping is "To propel oneself rapidly upward, downward and/or in any horizontal direction such that momentum causes the body to become airborne."
As I already mentioned that this question may seem as off topic but I think that this problem seriously involves physics!
newtonian-mechanics everyday-life soft-question biophysics
asked 9 hours ago
UniqueUnique
9291517
$endgroup$
I observed it while trying to jump from my bed with my knees straightened and I failed to do it. I want to ask whether it is with all of us our it may be a medical issue with me?
Why we can't jump without bending our knees? I thought that the answer may be a biological one but I asked a doctor who suggested me to continue reading classical mechanics.
EDIT
I got something on this topic below:-
According to wikitionary jumping is "To propel oneself rapidly upward, downward and/or in any horizontal direction such that momentum causes the body to become airborne."
As I already mentioned that this question may seem as off topic but I think that this problem seriously involves physics!
newtonian-mechanics everyday-life soft-question biophysics
newtonian-mechanics everyday-life soft-question biophysics
asked 9 hours ago
UniqueUnique
9291517
asked 9 hours ago
UniqueUnique
9291517
edited 7 hours ago
Unique
asked 9 hours ago
UniqueUnique
9291517
asked 9 hours ago
UniqueUnique
9291517
asked 9 hours ago
UniqueUnique
9291517
9291517
1
$begingroup$
You can jump with your ankles alone, but you won’t get very high.
$endgroup$
– Gilbert
9 hours ago
1
$begingroup$
@Unique Gilbert is kind of correct, but I would hesitate to call it a "jump". You can exercise you calf muscles by elevating the back and arch of your foot. No bending of the knees is needed. If you elevate very quickly I suppose you might leave the ground by a very little amount and very briefly. But in my view, that's hardly a jump. So in my opinion, your question is still valid.
$endgroup$
– Bob D
9 hours ago
3
$begingroup$
I'm voting to close this question as off-topic because it's really a biology/physiology question rather than a physics one.
$endgroup$
– Kyle Kanos
8 hours ago
1
$begingroup$
@KyleKanos Not sure I agree. my2cts answer, which I agree with, does not invoke any element of biology or physiology that I can see.
$endgroup$
– Bob D
8 hours ago
1
$begingroup$
I was able to perform very small 'jumps' with straight knees using mainly the muscles of the feet, I believe they are called toe jumps, like in this video: youtube.com/watch?v=uL7XlhdBroE
$endgroup$
– Adam Latosiński
6 hours ago
|
show 4 more comments
1
$begingroup$
You can jump with your ankles alone, but you won’t get very high.
$endgroup$
– Gilbert
9 hours ago
1
$begingroup$
@Unique Gilbert is kind of correct, but I would hesitate to call it a "jump". You can exercise you calf muscles by elevating the back and arch of your foot. No bending of the knees is needed. If you elevate very quickly I suppose you might leave the ground by a very little amount and very briefly. But in my view, that's hardly a jump. So in my opinion, your question is still valid.
$endgroup$
– Bob D
9 hours ago
3
$begingroup$
I'm voting to close this question as off-topic because it's really a biology/physiology question rather than a physics one.
$endgroup$
– Kyle Kanos
8 hours ago
1
$begingroup$
@KyleKanos Not sure I agree. my2cts answer, which I agree with, does not invoke any element of biology or physiology that I can see.
$endgroup$
– Bob D
8 hours ago
1
$begingroup$
I was able to perform very small 'jumps' with straight knees using mainly the muscles of the feet, I believe they are called toe jumps, like in this video: youtube.com/watch?v=uL7XlhdBroE
$endgroup$
– Adam Latosiński
6 hours ago
1
1
$begingroup$
You can jump with your ankles alone, but you won’t get very high.
$endgroup$
– Gilbert
9 hours ago
$begingroup$
You can jump with your ankles alone, but you won’t get very high.
$endgroup$
– Gilbert
9 hours ago
1
1
$begingroup$
@Unique Gilbert is kind of correct, but I would hesitate to call it a "jump". You can exercise you calf muscles by elevating the back and arch of your foot. No bending of the knees is needed. If you elevate very quickly I suppose you might leave the ground by a very little amount and very briefly. But in my view, that's hardly a jump. So in my opinion, your question is still valid.
$endgroup$
– Bob D
9 hours ago
$begingroup$
@Unique Gilbert is kind of correct, but I would hesitate to call it a "jump". You can exercise you calf muscles by elevating the back and arch of your foot. No bending of the knees is needed. If you elevate very quickly I suppose you might leave the ground by a very little amount and very briefly. But in my view, that's hardly a jump. So in my opinion, your question is still valid.
$endgroup$
– Bob D
9 hours ago
3
3
$begingroup$
I'm voting to close this question as off-topic because it's really a biology/physiology question rather than a physics one.
$endgroup$
– Kyle Kanos
8 hours ago
$begingroup$
I'm voting to close this question as off-topic because it's really a biology/physiology question rather than a physics one.
$endgroup$
– Kyle Kanos
8 hours ago
1
1
$begingroup$
@KyleKanos Not sure I agree. my2cts answer, which I agree with, does not invoke any element of biology or physiology that I can see.
$endgroup$
– Bob D
8 hours ago
$begingroup$
@KyleKanos Not sure I agree. my2cts answer, which I agree with, does not invoke any element of biology or physiology that I can see.
$endgroup$
– Bob D
8 hours ago
1
1
$begingroup$
I was able to perform very small 'jumps' with straight knees using mainly the muscles of the feet, I believe they are called toe jumps, like in this video: youtube.com/watch?v=uL7XlhdBroE
$endgroup$
– Adam Latosiński
6 hours ago
$begingroup$
I was able to perform very small 'jumps' with straight knees using mainly the muscles of the feet, I believe they are called toe jumps, like in this video: youtube.com/watch?v=uL7XlhdBroE
$endgroup$
– Adam Latosiński
6 hours ago
|
show 4 more comments
4 Answers
4
active
oldest
votes
$begingroup$
To jump up by a height $h$ you legs need to perform work $W=mgh$. By flexing your legs and then stretching them you deliver $W=F. S$. Making $S$ larger by flexing and stretching allows to do this with less force, so you can jump higher with the same musculature.
answered 9 hours ago
my2ctsmy2cts
7,1832722
$endgroup$
1
$begingroup$
It means that it requires some potential energy of leg and earth system to reach the potential energy till $mgh$.
$endgroup$
– Unique
7 hours ago
$begingroup$
@Unique No, it just requires work. The work $W$ done by the legs or ankles is converted into kinetic energy $K$, which in turn is converted into potential energy $U=mgh$ of the Earth-body system (and soon after, that potential energy $U$ is converted back into kinetic energy $K$ as you fall back down again). We can set $W=U$ as done in this answer, because we assume zero energy loss everywhere in all these conversions.
$endgroup$
– Steeven
6 hours ago
add a comment |
$begingroup$
In principle, it's possible to jump off the ground without bending legs or ankles at all. If you're strong enough, you can leave the ground by holding weights in your hands and shoving the weights upward, then hanging on to the weights and letting them lift you (briefly) off the ground. Better yet, yank down on the weights and throw them to the ground. But you need to be very strong.
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
$endgroup$
add a comment |
$begingroup$
To jump, or push yourself off the ground, you need to apply some kind of force on the ground, or in other words push off of it.
Our muscles work by squishing and stretching. When they squish they pull on bones and apply a force. Tense your biceps... they themselves squish and then pull your forearms, and the forearms move.
When you bend your knees, you squish and stretch certain muscles. As you push yourself of the ground certain muscles squish, certain stretch. The squishing ones pull your tibia/shin and/or feet bones etc... and they transfer the force to the ground. And you jump off.
You could jump by just squishing your calf muscles and pulling your feet into a "straightened" pose and push yourself of the ground that way, but that's not a lot of force, so you'd jump an inch high. However, if you squish your frontal thigh muscles, pull your shin/lower leg into a straightened position from a previously bent-knee pose, that's a lot of power and force being transferred to the ground. And you jump high.
Due to a thing called "principle of the lever" the longer the body part you move to push off, the less force you'll need to move. In simplified terms, the fulcrum here is the point of contact with the ground. Therefore, it helps to bend the knees and not just ankles, even aside from the fact most thighs are stronger than most calf muscles.
Btw, the simplest way to illustrate the principle of the lever is any door. Try pushing open a door by pushing it with your finger near the handle, at that end of the door. Easy. Now try doing it by pushing near the hinge. Yeah, good luck with that.
answered 6 hours ago
guestguest
48137
$endgroup$
add a comment |
$begingroup$
To jump, you have to give to your body some net upwards momentum. To do this without bending knees, first stand with straight legs and bend at the waist to as low as you can. Then straighten up as quick as you can, bringing your head up and your torso to vertical. At the same time flex your ankles to give a little extra lift. You can get a few inches off the ground quite easily, and I guess a gymnast could do better.
Your arms can add a slight effect if you start with them low, swing them up before you leave the ground, and then once in the air bring them down again.
The physics here is mainly about momentum IMO. You need some vertical momentum. You get it by pushing against the floor. You move your body in any way which makes you push against the floor more than is needed merely to support your weight.
P.S. I just drew this picture and added it. Could someone tell me how to make it appear smaller? Also, do I need to get a life?
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
$endgroup$
add a comment |
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4 Answers
4
active
oldest
votes
4 Answers
4
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
To jump up by a height $h$ you legs need to perform work $W=mgh$. By flexing your legs and then stretching them you deliver $W=F. S$. Making $S$ larger by flexing and stretching allows to do this with less force, so you can jump higher with the same musculature.
answered 9 hours ago
my2ctsmy2cts
7,1832722
$endgroup$
1
$begingroup$
It means that it requires some potential energy of leg and earth system to reach the potential energy till $mgh$.
$endgroup$
– Unique
7 hours ago
$begingroup$
@Unique No, it just requires work. The work $W$ done by the legs or ankles is converted into kinetic energy $K$, which in turn is converted into potential energy $U=mgh$ of the Earth-body system (and soon after, that potential energy $U$ is converted back into kinetic energy $K$ as you fall back down again). We can set $W=U$ as done in this answer, because we assume zero energy loss everywhere in all these conversions.
$endgroup$
– Steeven
6 hours ago
add a comment |
$begingroup$
To jump up by a height $h$ you legs need to perform work $W=mgh$. By flexing your legs and then stretching them you deliver $W=F. S$. Making $S$ larger by flexing and stretching allows to do this with less force, so you can jump higher with the same musculature.
answered 9 hours ago
my2ctsmy2cts
7,1832722
$endgroup$
1
$begingroup$
It means that it requires some potential energy of leg and earth system to reach the potential energy till $mgh$.
$endgroup$
– Unique
7 hours ago
$begingroup$
@Unique No, it just requires work. The work $W$ done by the legs or ankles is converted into kinetic energy $K$, which in turn is converted into potential energy $U=mgh$ of the Earth-body system (and soon after, that potential energy $U$ is converted back into kinetic energy $K$ as you fall back down again). We can set $W=U$ as done in this answer, because we assume zero energy loss everywhere in all these conversions.
$endgroup$
– Steeven
6 hours ago
add a comment |
$begingroup$
To jump up by a height $h$ you legs need to perform work $W=mgh$. By flexing your legs and then stretching them you deliver $W=F. S$. Making $S$ larger by flexing and stretching allows to do this with less force, so you can jump higher with the same musculature.
answered 9 hours ago
my2ctsmy2cts
7,1832722
$endgroup$
To jump up by a height $h$ you legs need to perform work $W=mgh$. By flexing your legs and then stretching them you deliver $W=F. S$. Making $S$ larger by flexing and stretching allows to do this with less force, so you can jump higher with the same musculature.
answered 9 hours ago
my2ctsmy2cts
7,1832722
answered 9 hours ago
my2ctsmy2cts
7,1832722
answered 9 hours ago
my2ctsmy2cts
7,1832722
answered 9 hours ago
my2ctsmy2cts
7,1832722
7,1832722
1
$begingroup$
It means that it requires some potential energy of leg and earth system to reach the potential energy till $mgh$.
$endgroup$
– Unique
7 hours ago
$begingroup$
@Unique No, it just requires work. The work $W$ done by the legs or ankles is converted into kinetic energy $K$, which in turn is converted into potential energy $U=mgh$ of the Earth-body system (and soon after, that potential energy $U$ is converted back into kinetic energy $K$ as you fall back down again). We can set $W=U$ as done in this answer, because we assume zero energy loss everywhere in all these conversions.
$endgroup$
– Steeven
6 hours ago
add a comment |
1
$begingroup$
It means that it requires some potential energy of leg and earth system to reach the potential energy till $mgh$.
$endgroup$
– Unique
7 hours ago
$begingroup$
@Unique No, it just requires work. The work $W$ done by the legs or ankles is converted into kinetic energy $K$, which in turn is converted into potential energy $U=mgh$ of the Earth-body system (and soon after, that potential energy $U$ is converted back into kinetic energy $K$ as you fall back down again). We can set $W=U$ as done in this answer, because we assume zero energy loss everywhere in all these conversions.
$endgroup$
– Steeven
6 hours ago
1
1
$begingroup$
It means that it requires some potential energy of leg and earth system to reach the potential energy till $mgh$.
$endgroup$
– Unique
7 hours ago
$begingroup$
It means that it requires some potential energy of leg and earth system to reach the potential energy till $mgh$.
$endgroup$
– Unique
7 hours ago
$begingroup$
@Unique No, it just requires work. The work $W$ done by the legs or ankles is converted into kinetic energy $K$, which in turn is converted into potential energy $U=mgh$ of the Earth-body system (and soon after, that potential energy $U$ is converted back into kinetic energy $K$ as you fall back down again). We can set $W=U$ as done in this answer, because we assume zero energy loss everywhere in all these conversions.
$endgroup$
– Steeven
6 hours ago
$begingroup$
@Unique No, it just requires work. The work $W$ done by the legs or ankles is converted into kinetic energy $K$, which in turn is converted into potential energy $U=mgh$ of the Earth-body system (and soon after, that potential energy $U$ is converted back into kinetic energy $K$ as you fall back down again). We can set $W=U$ as done in this answer, because we assume zero energy loss everywhere in all these conversions.
$endgroup$
– Steeven
6 hours ago
add a comment |
$begingroup$
In principle, it's possible to jump off the ground without bending legs or ankles at all. If you're strong enough, you can leave the ground by holding weights in your hands and shoving the weights upward, then hanging on to the weights and letting them lift you (briefly) off the ground. Better yet, yank down on the weights and throw them to the ground. But you need to be very strong.
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
$endgroup$
add a comment |
$begingroup$
In principle, it's possible to jump off the ground without bending legs or ankles at all. If you're strong enough, you can leave the ground by holding weights in your hands and shoving the weights upward, then hanging on to the weights and letting them lift you (briefly) off the ground. Better yet, yank down on the weights and throw them to the ground. But you need to be very strong.
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
$endgroup$
add a comment |
$begingroup$
In principle, it's possible to jump off the ground without bending legs or ankles at all. If you're strong enough, you can leave the ground by holding weights in your hands and shoving the weights upward, then hanging on to the weights and letting them lift you (briefly) off the ground. Better yet, yank down on the weights and throw them to the ground. But you need to be very strong.
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
$endgroup$
In principle, it's possible to jump off the ground without bending legs or ankles at all. If you're strong enough, you can leave the ground by holding weights in your hands and shoving the weights upward, then hanging on to the weights and letting them lift you (briefly) off the ground. Better yet, yank down on the weights and throw them to the ground. But you need to be very strong.
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
answered 7 hours ago
S. McGrewS. McGrew
10.6k21342
10.6k21342
add a comment |
add a comment |
$begingroup$
To jump, or push yourself off the ground, you need to apply some kind of force on the ground, or in other words push off of it.
Our muscles work by squishing and stretching. When they squish they pull on bones and apply a force. Tense your biceps... they themselves squish and then pull your forearms, and the forearms move.
When you bend your knees, you squish and stretch certain muscles. As you push yourself of the ground certain muscles squish, certain stretch. The squishing ones pull your tibia/shin and/or feet bones etc... and they transfer the force to the ground. And you jump off.
You could jump by just squishing your calf muscles and pulling your feet into a "straightened" pose and push yourself of the ground that way, but that's not a lot of force, so you'd jump an inch high. However, if you squish your frontal thigh muscles, pull your shin/lower leg into a straightened position from a previously bent-knee pose, that's a lot of power and force being transferred to the ground. And you jump high.
Due to a thing called "principle of the lever" the longer the body part you move to push off, the less force you'll need to move. In simplified terms, the fulcrum here is the point of contact with the ground. Therefore, it helps to bend the knees and not just ankles, even aside from the fact most thighs are stronger than most calf muscles.
Btw, the simplest way to illustrate the principle of the lever is any door. Try pushing open a door by pushing it with your finger near the handle, at that end of the door. Easy. Now try doing it by pushing near the hinge. Yeah, good luck with that.
answered 6 hours ago
guestguest
48137
$endgroup$
add a comment |
$begingroup$
To jump, or push yourself off the ground, you need to apply some kind of force on the ground, or in other words push off of it.
Our muscles work by squishing and stretching. When they squish they pull on bones and apply a force. Tense your biceps... they themselves squish and then pull your forearms, and the forearms move.
When you bend your knees, you squish and stretch certain muscles. As you push yourself of the ground certain muscles squish, certain stretch. The squishing ones pull your tibia/shin and/or feet bones etc... and they transfer the force to the ground. And you jump off.
You could jump by just squishing your calf muscles and pulling your feet into a "straightened" pose and push yourself of the ground that way, but that's not a lot of force, so you'd jump an inch high. However, if you squish your frontal thigh muscles, pull your shin/lower leg into a straightened position from a previously bent-knee pose, that's a lot of power and force being transferred to the ground. And you jump high.
Due to a thing called "principle of the lever" the longer the body part you move to push off, the less force you'll need to move. In simplified terms, the fulcrum here is the point of contact with the ground. Therefore, it helps to bend the knees and not just ankles, even aside from the fact most thighs are stronger than most calf muscles.
Btw, the simplest way to illustrate the principle of the lever is any door. Try pushing open a door by pushing it with your finger near the handle, at that end of the door. Easy. Now try doing it by pushing near the hinge. Yeah, good luck with that.
answered 6 hours ago
guestguest
48137
$endgroup$
add a comment |
$begingroup$
To jump, or push yourself off the ground, you need to apply some kind of force on the ground, or in other words push off of it.
Our muscles work by squishing and stretching. When they squish they pull on bones and apply a force. Tense your biceps... they themselves squish and then pull your forearms, and the forearms move.
When you bend your knees, you squish and stretch certain muscles. As you push yourself of the ground certain muscles squish, certain stretch. The squishing ones pull your tibia/shin and/or feet bones etc... and they transfer the force to the ground. And you jump off.
You could jump by just squishing your calf muscles and pulling your feet into a "straightened" pose and push yourself of the ground that way, but that's not a lot of force, so you'd jump an inch high. However, if you squish your frontal thigh muscles, pull your shin/lower leg into a straightened position from a previously bent-knee pose, that's a lot of power and force being transferred to the ground. And you jump high.
Due to a thing called "principle of the lever" the longer the body part you move to push off, the less force you'll need to move. In simplified terms, the fulcrum here is the point of contact with the ground. Therefore, it helps to bend the knees and not just ankles, even aside from the fact most thighs are stronger than most calf muscles.
Btw, the simplest way to illustrate the principle of the lever is any door. Try pushing open a door by pushing it with your finger near the handle, at that end of the door. Easy. Now try doing it by pushing near the hinge. Yeah, good luck with that.
answered 6 hours ago
guestguest
48137
$endgroup$
To jump, or push yourself off the ground, you need to apply some kind of force on the ground, or in other words push off of it.
Our muscles work by squishing and stretching. When they squish they pull on bones and apply a force. Tense your biceps... they themselves squish and then pull your forearms, and the forearms move.
When you bend your knees, you squish and stretch certain muscles. As you push yourself of the ground certain muscles squish, certain stretch. The squishing ones pull your tibia/shin and/or feet bones etc... and they transfer the force to the ground. And you jump off.
You could jump by just squishing your calf muscles and pulling your feet into a "straightened" pose and push yourself of the ground that way, but that's not a lot of force, so you'd jump an inch high. However, if you squish your frontal thigh muscles, pull your shin/lower leg into a straightened position from a previously bent-knee pose, that's a lot of power and force being transferred to the ground. And you jump high.
Due to a thing called "principle of the lever" the longer the body part you move to push off, the less force you'll need to move. In simplified terms, the fulcrum here is the point of contact with the ground. Therefore, it helps to bend the knees and not just ankles, even aside from the fact most thighs are stronger than most calf muscles.
Btw, the simplest way to illustrate the principle of the lever is any door. Try pushing open a door by pushing it with your finger near the handle, at that end of the door. Easy. Now try doing it by pushing near the hinge. Yeah, good luck with that.
answered 6 hours ago
guestguest
48137
edited 6 hours ago
answered 6 hours ago
guestguest
48137
answered 6 hours ago
guestguest
48137
answered 6 hours ago
guestguest
48137
48137
add a comment |
add a comment |
$begingroup$
To jump, you have to give to your body some net upwards momentum. To do this without bending knees, first stand with straight legs and bend at the waist to as low as you can. Then straighten up as quick as you can, bringing your head up and your torso to vertical. At the same time flex your ankles to give a little extra lift. You can get a few inches off the ground quite easily, and I guess a gymnast could do better.
Your arms can add a slight effect if you start with them low, swing them up before you leave the ground, and then once in the air bring them down again.
The physics here is mainly about momentum IMO. You need some vertical momentum. You get it by pushing against the floor. You move your body in any way which makes you push against the floor more than is needed merely to support your weight.
P.S. I just drew this picture and added it. Could someone tell me how to make it appear smaller? Also, do I need to get a life?
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
$endgroup$
add a comment |
$begingroup$
To jump, you have to give to your body some net upwards momentum. To do this without bending knees, first stand with straight legs and bend at the waist to as low as you can. Then straighten up as quick as you can, bringing your head up and your torso to vertical. At the same time flex your ankles to give a little extra lift. You can get a few inches off the ground quite easily, and I guess a gymnast could do better.
Your arms can add a slight effect if you start with them low, swing them up before you leave the ground, and then once in the air bring them down again.
The physics here is mainly about momentum IMO. You need some vertical momentum. You get it by pushing against the floor. You move your body in any way which makes you push against the floor more than is needed merely to support your weight.
P.S. I just drew this picture and added it. Could someone tell me how to make it appear smaller? Also, do I need to get a life?
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
$endgroup$
add a comment |
$begingroup$
To jump, you have to give to your body some net upwards momentum. To do this without bending knees, first stand with straight legs and bend at the waist to as low as you can. Then straighten up as quick as you can, bringing your head up and your torso to vertical. At the same time flex your ankles to give a little extra lift. You can get a few inches off the ground quite easily, and I guess a gymnast could do better.
Your arms can add a slight effect if you start with them low, swing them up before you leave the ground, and then once in the air bring them down again.
The physics here is mainly about momentum IMO. You need some vertical momentum. You get it by pushing against the floor. You move your body in any way which makes you push against the floor more than is needed merely to support your weight.
P.S. I just drew this picture and added it. Could someone tell me how to make it appear smaller? Also, do I need to get a life?
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
$endgroup$
To jump, you have to give to your body some net upwards momentum. To do this without bending knees, first stand with straight legs and bend at the waist to as low as you can. Then straighten up as quick as you can, bringing your head up and your torso to vertical. At the same time flex your ankles to give a little extra lift. You can get a few inches off the ground quite easily, and I guess a gymnast could do better.
Your arms can add a slight effect if you start with them low, swing them up before you leave the ground, and then once in the air bring them down again.
The physics here is mainly about momentum IMO. You need some vertical momentum. You get it by pushing against the floor. You move your body in any way which makes you push against the floor more than is needed merely to support your weight.
P.S. I just drew this picture and added it. Could someone tell me how to make it appear smaller? Also, do I need to get a life?
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
edited 6 hours ago
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
answered 6 hours ago
Andrew SteaneAndrew Steane
6,8111839
6,8111839
add a comment |
add a comment |
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1
$begingroup$
You can jump with your ankles alone, but you won’t get very high.
$endgroup$
– Gilbert
9 hours ago
1
$begingroup$
@Unique Gilbert is kind of correct, but I would hesitate to call it a "jump". You can exercise you calf muscles by elevating the back and arch of your foot. No bending of the knees is needed. If you elevate very quickly I suppose you might leave the ground by a very little amount and very briefly. But in my view, that's hardly a jump. So in my opinion, your question is still valid.
$endgroup$
– Bob D
9 hours ago
3
$begingroup$
I'm voting to close this question as off-topic because it's really a biology/physiology question rather than a physics one.
$endgroup$
– Kyle Kanos
8 hours ago
1
$begingroup$
@KyleKanos Not sure I agree. my2cts answer, which I agree with, does not invoke any element of biology or physiology that I can see.
$endgroup$
– Bob D
8 hours ago
1
$begingroup$
I was able to perform very small 'jumps' with straight knees using mainly the muscles of the feet, I believe they are called toe jumps, like in this video: youtube.com/watch?v=uL7XlhdBroE
$endgroup$
– Adam Latosiński
6 hours ago