Final Answer:
Estimate the time of diffusion for a neurotransmitter across a 100-nm synaptic gap using the equations developed in chapter 1.6, is a) True
Step-by-step explanation:
Estimate the time of diffusion for a neurotransmitter across a 100-nm synaptic gap: This implies using equations from Chapter 1.6 to calculate the time it takes for a neurotransmitter to diffuse across a synaptic gap that is 100 nanometers wide.
Paraphrase with relevant phrase from question: The statement is true concerning the estimation of the diffusion time for a neurotransmitter over a 100-nm synaptic gap using Chapter 1.6 equations.
Explanation in Detail:
The question involves estimating the time it takes for a neurotransmitter to diffuse across a synaptic gap with a specified width of 100 nanometers. To accomplish this, one would apply equations developed in Chapter 1.6, likely pertaining to diffusion processes. The diffusion time can be determined by considering factors such as the distance to be covered and the properties of the medium through which diffusion occurs.
In detail, the process involves utilizing mathematical equations that describe the dynamics of diffusion. These equations may include variables such as the diffusion coefficient, distance, and concentration gradient. Understanding and applying these equations from Chapter 1.6 would be essential in accurately estimating the time required for neurotransmitter diffusion.
This aligns with the option "a) True," as the question presupposes the use of relevant equations from Chapter 1.6 to estimate the diffusion time, making the statement true.