Link to the Task Sheet
BEFORE CONDUCTING THE EXPERIMENT - You should already have submitted to your teacher an EXCELLENT Investigation Design that included:
Identification of independent variable, dependent variable, and 4 factors held constant
Aim
Hypothesis
Procedure (step by step, including safety issues)
Circuit diagrams (copied from task sheet is OK if this is what you used)
However - if anything in the list above was NOT included in your pre-prac Investigation Design (or if there was anything you think could be improved) - include it now in your report below
How does changing the resistor size affect the amplitude of signal voltage in a receiving circuit? Aim:
To investigate how the resistor size in a receiving circuit affects
The tensile testing was done on the three composite specimens (90°, and two 45°) were completed with a servo-hydraulic load frame with a wedge. The one in the lab was the MTS 647 hydraulic wedge grip and an 810 material test system. The specimens had strain gages with a Wheatstone bridge to collect data such as time, distance, load, axial strain, and transverse strain. From the strain gages, evidence can support how and when the specimen material failed under the stress being applied to it. The test was run for three times on three different specimens. The first specimen that was tested in the hydraulic load was the 0°/90° specimen, which is made of carbon and epoxy laminate composite.
In this section we first briefly explain the properties of a first-order Delta Sigma modulated bit-stream. Based on these properties, we propose the P-N pair method to process the Delta Sigma modulated bit-streams.
Table.2 shown the best results of vertical resolution used in shorter pulse duration is better for the higher frequency and very similar for the 1 GHz, 800 MHz and 500 MHz. More which explains why the results obtained in Tables 3 was the same for both frequency. Because of the different materials used in the experiments metallic and wooden bars, the resolution show the metal bars are worsen, due to their higher electromagnetic contrast, amongst other things. The second reflector, so a bigger separation is needed to detect it as discrete events. This effect is more relevant when the reflectors are closer to the antennas and particular for the 500 MHz antenna (Table 3). The horizontal resolution obtained for the 1 GHz and 800 MHz is very similar and much better than for the 500 MHz. As expected, horizontal resolution worsens as the reflectors are moved away from the frequency, mainly because their footprint size gets larger. In radargrams (a) and (b) of Figs. 9, 11 and 13, the
P is the reflectance proportion of EMR, M is the outgoing reflectance and E is the incoming reflectance. So in order to find the reflectance we are dividing the outgoing (M) reflectance to the incoming reflectance (E).
With reference to figure 4, it can be seen that IC is largely unaffected when VCE is more than 1.0V. This is because it is almost completely controlled by IB, which is the base current. This means that the circuit is controlled by a constant current source. The straight line drawn shows the saturation point at A, and the cut off point at B when IC=0. This results in a Q-point as seen in the middle of figure 4. When VC is much greater than VE, the transistor conducts.
This supports our hypothesis that the amplitude being adjusted doesn't effect the rate at which it swings. Now we move on to our question: Would mass be a factor? The first bob was replaced with something much smaller in weight. We returned the displacement back to 10 cms while keeping the length the same. We recorded the 10 periods and the average seems to be around the same approximate rate of 2.01. This debunks the theory of the pendulum being dependent on mass. Changing both the displacement and weight seems to not affect the rate in anyway.
File missing to bad Image etc. can take place on any Windows machine for any essential file. Alike many other files, ipmiprv.dll is also inseparable part of Windows computer and it can also cause the previously mentioned errors. If such issues occur on your device, then you may not be able to run the specific machine flawlessly. Therefore, you need to resolve all these issues as soon as possible. In this regard, the article will be very much useful for you.
In this case, the encryption password is unique to the Windows account encrypting the file. In this case, it also happens to be “Pa$$word.” Here is a screenshot showing the file post-encryption.
is the dipole matrix element between the ground and the excited state. With the polarizability \alpha
This week’s lab builds upon the previous EnCase examination concepts to introduce students to Windows Registry values that can help identify key information within an investigation. To elucidate this, the lab calls for an examination of registry entries within Jane’s (Blacksuit Computing) collected evidence image. Within this image, students are asked to locate key evidence including, the system’s local time zone at acquisition, the location and nature of browser help objects (add-ins), system start-up processes, and a list of first and last devices connected to Jane’s system. Among these, the student is also tasked with analyzing the nature of these items to identify any suspicious activities or entries contained in the evidence.
We concentrate on typical pedestrian speeds of 3 Km/h for users' mobility concern. In order to describe the mobility of the mobile devices, we need to define the contact time between users $k_i$ $\&$ $k_j$. It is the time taken by two mobile nodes to meet again from the last time ($t_0$) within the range of each other and denoted by $\textit{ICT}_{i,j}$, when they were going out of the range from each other, i.e., $ICT_{i,j} = \mathop {\min } \limits_t \left\{ {\left( {t - {t_0}} \right):\left\| {{L_i}\left( t \right) - {L_j}\left( t \right)} \right\| \le R_{i,j},t > {t_0}}, L > 0 \right\}$, where $L_i(t)$ and $L_j(t)$ are the locations of the users $k_i$ and $k_j$ at time $t$, respectively, $R_{i,j}$ describes the range of transmission between $k_i$ $\&$ $k_j$, and $\left\| \bullet \right\|$ is the distance measured between the corresponding nodes. $\textit{ICT}_{i,j}$ is a time duration, which is random variable and is assumed to be independent of time.
Questions 1, a and b answers: As we know (also shown in Figure 1 of this paper), the mixing vanes in the fuel assembly are not symmetric and the flow pattern might not be periodic or cyclic, so it is impossible or extremely difficult to extract information out of any “free boundary” 1x2 section from experimental data taken under the 5x5 bundle test geometry and use this information to benchmark CFD modeling of a 1x2 channel without any convincing justification of how the boundary (or missing boundary) effect is handled. The challenge is how to apply the data obtained within a 5x5 assembly without a 1x2 confined flow boundary to
I received 2.5 out of 3 possible points for this question. Based on the TA’s notes, it seems as though I lost ½ of a point for not saying that “more ddNTPs will result in shorter sequences”. However, in my answer, I did in fact say that increasing the ratio of ddNTPs to dNTPS will cause DNA sequencing to stop quickly, namely at the first few nucleotides if many ddNTPs are added. Because I included such information in my answer, and given the accuracy of the rest of my answer, I’m not sure why I lost ½ of a point and instead believe that I did not deserve to lose any points, or at least did not deserve to lose ½ of a point. In other words, although I believe this did not warrant any loss of points, I certainly believe it didn’t warrant a loss
Usage of mobile phone to connect to social media is growing all over the world. Nowadays smartphones come with numerous health-consciousness apps, too. This study is to find out users’ preference between networking and health while choosing mobile phone.
The devices were fixed in location with zero energy absorption to allow solely diffracted wave field measurements. To perform the testing for the seven array configurations a steel mounting plate was fabricated with 29 different mounting sockets. The mounting plate fixed to the floor in the centre of the Model Test Basin, surrounding the 600mm deep pit designed to house the LinMot. The LinMot is used throughout the radiation coefficient testing, to oscillate the devices in a heaving and surging condition, removable sections of the mounting plate were required to accommodate for the access and maintenance of the LinMot.