Answer:
The correct options are;
Mechanical
Faraday
Explanation:
The principle of working of electric generators is to convert kinetic energy, which is the energy present in the spinning turbine into electrical energy. Electricity is generated by the use of the electric generators has the largest share of all forms of electricity generated electricity and it is based on Faraday's law of of induction, which states that Emf = N×(ΔФ/Δt)
Where;
Emf = The induced voltage
ΔФ = Change in magnetic flux
Δt = Change in time.
Therefore, we have;
Traditional power-generating stations do not store electrical energy. In such power stations, the original energy source spins a turbine which an electric generator. It converts <u>mechanical </u>energy into electrical energy using a fundamental principle of physics called <u>Faraday's</u> law.
Solution:
The common information listed under the ip section of pdu details as compared to the information listed under the osi model tab is Packet Tracer.
This simulation activity is intended to provide a foundation for understanding the TCP/IP protocol suite and the relationship to the OSI model. Simulation mode allows you to view the data contents being sent across the network at each layer. As data moves through the network, it is broken down into smaller pieces and identified so that the pieces can be put back together when they arrive at the destination. Each piece is assigned a specific name (protocol data unit [PDU]) and associated with a specific layer of the TCP/IP and OSI models. Packet Tracer simulation mode enables you to view each of the layers and the associated PDU. The following steps lead the user through the process of requesting a web page from a web server by using the web browser application available on a client PC. Even though much of the information displayed will be discussed in more detail later, this is an opportunity to explore the functionality of Packet Tracer and be able to visualize the encapsulation process.
This is the required answer.
Answer:
Volume of a Cuboid = Length * Breadth * Height.
Volume of a Cuboid = lbh.
The Lateral Surface Area of a Cuboid = 2h (l + w)
Explanation: