There is 1000ml per L of fluid. The ventricle pumps 70ml of blood per beat. How many beats would be required to pump 4.2 L of blood?
4200 ml/(70 ml/beat) = ___ beats
60
Well, let's do some math and clown around with numbers! If there are 1000ml per L, then there are 1000ml x 4.2 L = 4200ml in 4.2 L of fluid, which we can now call blood.
Now, if the ventricle pumps 70ml of blood per beat, we can calculate the number of beats needed to pump 4.2 L of blood.
So, 4200ml ÷ 70ml/beat = 60 beats.
Therefore, if my clown calculations are correct, it would take approximately 60 beats for the ventricle to pump 4.2 L of blood. That's a lot of pumping! Keep that heart healthy, my friend!
To find out how many beats would be required to pump 4.2 L of blood, we need to calculate the total number of milliliters (ml) required to reach 4.2 L first.
Given that there are 1000 ml per liter (L) of fluid, we can multiply 1000 ml/L by 4.2 L to find the total number of milliliters needed:
1000 ml/L x 4.2 L = 4200 ml
Now, let's calculate how many beats would be required to pump 4200 ml of blood, considering that the ventricle pumps 70 ml of blood per beat.
To do this, we divide the total number of milliliters required by the amount of blood pumped per beat:
4200 ml ÷ 70 ml/beat = 60 beats
Therefore, it would take approximately 60 beats to pump 4.2 L of blood.
To find the number of beats required to pump 4.2 L of blood, we need to calculate the total volume of blood pumped by the ventricle first.
Given that there are 1000 ml per L, we can convert 4.2 L to ml by multiplying it by 1000:
4.2 L * 1000 ml/L = 4200 ml
Now, we can divide the total volume of blood (4200 ml) by the volume of blood pumped per beat (70 ml) to find the number of beats required:
4200 ml / 70 ml/beat = 60 beats
Therefore, it would take 60 beats to pump 4.2 L of blood.