972 cubic ft
Neurons have a resting membrane potential of approximately -70mV. Muscle cells have a resting membrane potential of approximately -90mV.
Its the difference between your systolic and diastolic readiing.
The concentrations on Na+ outside the cell and concentrations of K+ inside the cell determine the resting membrane potential.
The resting potential of a neuron is approximately -70 millivolts. This is due to the difference in charge across the neuron's membrane, with the inside being more negatively charged compared to the outside.
Yes, the resting potential of a neuron is typically around -70 millivolts (mV), not microvolts. The resting potential is the membrane potential of a neuron when it is not being stimulated to send a signal.
If it's approximately -70 mV, then it's in a resting state.
In an adult human, the heart is approximately equal to the size of that person's single closed fist. The ideal resting heart rate is approximately 70 beats per minute, although a fit athlete may have a resting heart rate as low as 50 beats per minutes.
Gravity is the only force of friction if it and the environment is at rest.
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Potassium and sodium determine the a cell's resting membrane potential. The equilibrium potential (the voltage where no ion would flow) for sodium is about +60 mV while that for potassium is usually around -80 mV, but because the resting cell membrane is approximately 75 times more permeable to potassium than to sodium, the resting potential is closer the the equilibrium potential of potassium. This is because potassium leak channels are always open while sodium come in through voltage gated or ligand gated channels.
Cacti have their spines that keep animals from resting and eating their fruit
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