4 corrected grammar and spelling
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The issue with the brain during high g-force maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, it's the lungs that replenish it with oxygen.

During ana high g-force maneuver pulling the blood downwards and away from the head, the hearthheart of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure, you induce cavitation, which severely damagedamages the pipes and/or the pump. In this case cavitation in the blood streambloodstream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

The issue with the brain during high g-force maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, it's the lungs that replenish it with oxygen.

During an high g-force maneuver pulling the blood downwards and away from the head, the hearth of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure you induce cavitation, which severely damage the pipes and/or the pump. In this case cavitation in the blood stream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

The issue with the brain during high g-force maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, it's the lungs that replenish it with oxygen.

During a high g-force maneuver pulling the blood downwards and away from the head, the heart of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure, you induce cavitation, which severely damages the pipes and/or the pump. In this case cavitation in the bloodstream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

3 added 8 characters in body
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The issue with the brain during high geeg-force maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, it's the lungs that replenish it with oxygen.

During an high geeg-force maneuver pulling the blood downwards and away from the head, the hearth of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure you induce cavitation, which severely damage the pipes and/or the pump. In this case cavitation in the blood stream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

The issue with the brain during high gee maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, it's the lungs that replenish it with oxygen.

During an high gee maneuver pulling the blood downwards and away from the head, the hearth of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure you induce cavitation, which severely damage the pipes and/or the pump. In this case cavitation in the blood stream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

The issue with the brain during high g-force maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, it's the lungs that replenish it with oxygen.

During an high g-force maneuver pulling the blood downwards and away from the head, the hearth of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure you induce cavitation, which severely damage the pipes and/or the pump. In this case cavitation in the blood stream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

2 added 1 character in body
source | link

The issue with the brain during high gee maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, areit's the lungs that replenish it with oxygen.

During an high gee maneuver pulling the blood downwards and away from the head, the hearth of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure you induce cavitation, which severely damage the pipes and/or the pump. In this case cavitation in the blood stream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

The issue with the brain during high gee maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, are the lungs that replenish it with oxygen.

During an high gee maneuver pulling the blood downwards and away from the head, the hearth of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure you induce cavitation, which severely damage the pipes and/or the pump. In this case cavitation in the blood stream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

The issue with the brain during high gee maneuvers is that less or no blood reaching the brain means less or no oxygen supplying the neurons, leading to loss of consciousness.

While it is true that the heart pumps the blood, it's the lungs that replenish it with oxygen.

During an high gee maneuver pulling the blood downwards and away from the head, the hearth of your species would have to suck it even more against the gravity gradient.

When you study pumps at University you are always told that while pumping liquid pushing is b way better than sucking: beyond a certain sucking pressure you induce cavitation, which severely damage the pipes and/or the pump. In this case cavitation in the blood stream would be dangerous for the veins and/or the heart, with also the possible formation of thrombosis.

All in all, I think this is a worse implementation than our present model.

1
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