Oddly phased question in my opinion. Vmax is only effected by the amount of enzyme present in the reaction. Substrate concentration has zero effect on Vmax.
There for I believe the answer in no. {Enzyme concentration is responsible for this}
Taste threshold is the minimum concentration of a substance needed for a person to detect a taste. It varies depending on the individual's sensitivity to flavors and can be influenced by factors such as age, genetics, and health conditions.
The metaphase to anaphase transition stage marks the point where MPF reaches its threshold concentration, triggering mitosis to proceed to anaphase. During this transition, the activation of MPF promotes the separation of sister chromatids and the progression of cell division.
A sub-threshold change in membrane potential in the cell body, such as an excitatory post-synaptic potential (EPSP), does not reach the threshold for action potential initiation. As it travels along the dendrites and cell body, it decays and dissipates, failing to trigger an action potential. This phenomenon is crucial in the integration of signals by neurons.
The reversal of the resting potential owing to an influx of sodium ions is called depolarization. This occurs when the membrane potential becomes less negative, bringing it closer to the threshold for action potential initiation.
The minimum stimulus needed to cause a contraction is called the threshold stimulus. This is the minimal level of stimulation required to activate muscle fibers and initiate a contraction response.
The threshold voltage will be increased (in case of an N-Mos), because the charge in the depletion region formed under the channel will be more (high density) and hence gate voltage has to overcome this charge for strong inversion. Vt = (work function difference of gate and substrate) + 2*(substrate Fermi voltage) + (Qd/Cox) Where, Qd = charge in Depletion region in Coulomb Cox = Oxide capacitance
The threshold voltage of a device, such as a transistor, depends on its physical structure and material properties, such as channel length, channel doping concentration, oxide thickness, and gate material. It is also affected by external factors like temperature and supply voltage. In digital circuits, the threshold voltage is a critical parameter that determines the device's switching behavior.
Taste threshold is the minimum concentration of a substance needed for a person to detect a taste. It varies depending on the individual's sensitivity to flavors and can be influenced by factors such as age, genetics, and health conditions.
In Joseph Campbell's Hero's Journey, the initiation stage is comprised of the following steps in the 12 stages: #4, the Meeting of the Mentor/Guide, #5 Crossing the First Threshold, and #6 Tests and Trials.
it shows in urine.
In CMOS technology, the NMOS transistor's substrate is connected to ground to prevent parasitic effects and ensure proper operation, as it helps maintain a lower threshold voltage for the NMOS. Conversely, the PMOS substrate is connected to VDD to keep its threshold voltage stable and ensure that the PMOS operates correctly in the enhancement mode. This arrangement minimizes unwanted channel formation and enhances performance by reducing leakage currents in both types of transistors.
The metaphase to anaphase transition stage marks the point where MPF reaches its threshold concentration, triggering mitosis to proceed to anaphase. During this transition, the activation of MPF promotes the separation of sister chromatids and the progression of cell division.
As the concentration of touch receptors Meissner's corpuscles increases and the skin area becomes more sensitive, the two-point threshold will decrease. This means that the ability to distinguish two separate points of contact will improve, making the skin more sensitive to tactile stimuli.
Because of threshold voltage reduction of MOSFETs. Comparing with metals for the gate of MOSFETs, polysilicon has small work function difference with the substrate silicon of MOSFETs.
Then it does nothing unless the stimuli arrive at the same time to be above the threshold. Or the stimuli may undergo temporal summation (with buildup of neurotransmitters in the synapse), where their effects add up over time to be above the threshold.
From Threshold to Threshold was created in 1955.
A sub-threshold change in membrane potential in the cell body, such as an excitatory post-synaptic potential (EPSP), does not reach the threshold for action potential initiation. As it travels along the dendrites and cell body, it decays and dissipates, failing to trigger an action potential. This phenomenon is crucial in the integration of signals by neurons.