Explanation:
Determinism in an industrial local area network (LAN) basically improve the network and allow different types of technology use in various applications.
It basically refers to the network communication that uses various types of technology in the system like time scheduling to improve the deterministic real-time communication. It basically improve the transmission and provide ability to transfer data from one point to another.
The main importance of industrial LAN that it provide more flexible and efficient ethernet network in the system. It provide communication and interconnect various types of devices in the internet for efficient communication.
Answer:
1. Place your cursor in the General Provisions section towards the finish of the archive.
2. On the Page Layout tab, in the Paragraph gathering, tap the Paragraph Dialog Box Launcher and afterward tap the Line and Paragraph Breaks tab.
3. Select the Keep lines together checkbox and snap Ok.
Explanation:
In a short report or one that doesn't require a complex navigational structure, you can without much of a stretch configuration words and sections so key focuses emerge and the structure of your record is clear. You can accomplish sensational by applying predefined Word Art content impacts. To keep the presence of reports and other Microsoft Office records steady, you can organize archive components by applying predefined sets of designing called styles. Moreover, you can change the textual styles, hues, and impacts all through a record with a single tick by applying a subject.
C: bar graph
bar graphs are used to track changes over time, so I would say that C is your best bet
Answer:
It can improve the quality of education in many ways. It opens doorways to a wealth of information, knowledge and educational resources, increasing opportunities for learning in and beyond the classroom. Teachers use online materials to prepare lessons, and students to extend their range of learning
Explanation:
Answer:
D. 4x as much
Explanation:
The answer is pretty simple. The question is asking about 10m/s and 20m/s right? Take a look at the energy at each point on the graph. At 10m/s the kinetic energy is 100 on the graph. At 20m/s the kinetic energy is 400. You'll notice that 100 x 4 is 400 - That's the answer.
You can also prove this mathematically. The formula for kinetic energy is
The question says: constant mass so we can ignore that for now.
(1/2) * 10^2 is (1/2) * 100 = 50
for the 20m/s ball it would be
(1/2) * 20^2 = 400 * 1/2 = 200
Once again, you see that it is 4x
