It we plot logarithm of the potential difference (ln(V)) on the capacitors versus time, then the...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until the potential difference on the capacitor saturates at some initial value supplied by the power supply. Then you start to discharge your capacitor and read the potential difference on the capacitor in at different times. When you plot your data as lnV versus time, you make a linear fit which looks like the one on page 5 of your lab sheet. If the slope...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until the potential difference on the capacitor saturates at some initial value supplied by the power supply. Then you start to discharge your capacitor and read the potential difference on the capacitor in at different times. When you plot your data as lnV versus time, you make a linear fit which looks like the one on page 5 of your lab sheet. If the slope...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until the potential difference on the capacitor saturates at some initial value supplied by the power supply. Then you start to discharge your capacitor and read the potential difference on the capacitor in at different times. When you plot your data as lnV versus time, you make a linear fit which looks like the one on page 5 of your lab sheet. If the slope...

would the slope of a ln(k) versus 1/T (K) plot for a catalyzed reaction be more...

would the slope of a ln(k) versus 1/T (K) plot for a catalyzed reaction be more or less negative than the slope of the ln(k) versus 1/T (K) for the uncatalyzed reaction? Explain. Assume both rate laws for the ccatalyze and uncatalyzed reaction are all first- order overall.

A potential difference of 330 V is applied to a series connection of two capacitors, of...

A potential difference of 330 V is applied to a series connection of two capacitors, of capacitance C1 = 1.60 μF and capacitance C2 = 8.20 μF. (a) What is the charge q1 on capacitor 1? C (b) What is the potential difference V1 across capacitor 1? V (c) What is the charge q2 on capacitor 2? C (d) What is the potential difference V2 on capacitor 2? V The charged capacitors are then disconnected from each other and from...

How do I plot an appropriately labelled graph of ln (T∞ - Tt)against time (t) and...

How do I plot an appropriately labelled graph of ln (T∞ - Tt)against time (t) and calculate the rate constant (k) from the slope (gradient) using a line of best fit? I want the graph drawn by hand. The ln(A)0 are ( 2.31,2.16,2.09,2.37,2.34,2.06,2.09,2.09,2.09) and the time (10,20.5,30,40.1,50.27,60,70,80,90) 10 20.5 30 40.1 50.27 60 70 80 90 2.31 2.16 2.09 2.37 2.34 2.06 2.09 2.09 2.09

You create a plot of voltage (in V) vs. time (in s) for an RC circuit...

You create a plot of voltage (in V) vs. time (in s) for an RC circuit as the capacitor is charging, where V=V_{0} \cdot \left(1- e^{ \frac{-\left(t\right)}{RC} } \right). You curve fit the data using the inverse exponent function Y=A \cdot \left(1- e^{-\left(Cx\right)} \right)+B and LoggerPro gives the following values for A, B, and C. A = 4.611 ± 0.4211 B = 0.1599 ± 0.007211 C = 1.951 ± 0.2051 What is the time constant and its uncertainty? NEED CORRECT...

The following reaction was monitored as a function of time: AB→A+B A plot of 1/[AB] versus...

The following reaction was monitored as a function of time: AB→A+B A plot of 1/[AB] versus time yields a straight line with slope 5.5×10−2 (M⋅s)−1 . If the initial concentration of AB is 0.250 M , and the reaction mixture initially contains no products, what are the concentrations of A and B after 80 s ?

The following reaction was monitored as a function of time: AB→A+B A plot of 1/[AB] versus...

The following reaction was monitored as a function of time: AB→A+B A plot of 1/[AB] versus time yields a straight line with slope 5.8×10−2 (M⋅s)−1 . 1)What is the half-life when the initial concentration is 0.59 M ? 2)if the initial concentration of AB is 0.290 M , and the reaction mixture initially contains no products, what are the concentrations of A and Bafter 80  s ?

The following reaction was monitored as a function of time: AB→A+B A plot of 1/[AB] versus...

The following reaction was monitored as a function of time: AB→A+B A plot of 1/[AB] versus time yields a straight line with slope 5.8×10−2 (M⋅s)−1 . What is the value of the rate constant (k) for this reaction at this temperature? What is the half-life when the initial concentration is 0.55 M If the initial concentration of AB is 0.220 M , and the reaction mixture initially contains no products, what are the concentrations of A and B after 70...