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The application layer protocol used by a Telnet application is ________
The application layer protocol used by a Telnet application is Telnet.
The application layer protocol used by a Telnet application is Telnet.
See lessTelnet protocol is used to establish a connection to __________
Telnet protocol is used to establish a connection to remote computers or network devices over the Internet or local area networks for command-line interface management.
Telnet protocol is used to establish a connection to remote computers or network devices over the Internet or local area networks for command-line interface management.
See lessAbsoluteTelnet is a telnet client for _______ Operating system.
AbsoluteTelnet is a telnet client for Windows Operating system.
AbsoluteTelnet is a telnet client for Windows Operating system.
See lessThe decimal code of Interpret as Command (IAC) character is _______
255
255
See lessTCP groups a number of bytes together into a packet called _______
TCP groups a number of bytes together into a packet called a segment.
TCP groups a number of bytes together into a packet called a segment.
See lessCompute the Gauss law for D= 10ρ3 /4 i, in cylindrical coordinates with ρ= 4m, z=0 and z=5.
To compute Gauss's Law using the displacement field D, we first write down Gauss’s Law for electric displacement fields:[Phi_D = oint_S mathbf{D} cdot dmathbf{A} = Q_{free}]Where Q_free is the free charge enclosed by the surface S. Here, the displacement field is given as:[mathbf{D} = frac{10rho^3}{Read more
To compute Gauss’s Law using the displacement field D, we first write down Gauss’s Law for electric displacement fields:
[
Phi_D = oint_S mathbf{D} cdot dmathbf{A} = Q_{free}
]
Where Q_free is the free charge enclosed by the surface S. Here, the displacement field is given as:
[
mathbf{D} = frac{10rho^3}{4} mathbf{i}
]
In cylindrical coordinates, D can be expressed as a function of ρ, and given constants indicate that D has only an i component (along the x-axis).
Given:
– ρ = 4 m
– z = 0 (which we could consider as the bottom face of a cylindrical volume)
– z = 5 (top face of the volume)
1. Calculate D at ρ = 4 m:
[
mathbf{D} = frac{10(4)^3}{4} mathbf{i} = frac{10 times 64}{4} mathbf{i} = 160 mathbf{i}
]
2. Define the Gaussian surface: A cylinder with radius 4 m and height 5 m.
3. Calculate the area vector: The enclosed area of the Gaussian surface includes the curved surface and two flat circular areas.
– Curved surface area
See lessCoulomb’s law can be derived from Gauss law. State True/ False
True
True
See lessGauss law for electric field uses surface integral. State True/False
True
True
See lessGauss law for electric field uses surface integral. State True/False
True.
True.
See lessThe energy stored in the inductor 100mH with a current of 2A is
The energy stored in an inductor can be calculated using the formula:[ W = frac{1}{2} L I^2 ]where:- ( W ) is the energy in joules,- ( L ) is the inductance in henries,- ( I ) is the current in amperes.For an inductor of 100 mH (0.1 H) and a current of 2 A, the calculation is as follows:[ W = frac{1Read more
The energy stored in an inductor can be calculated using the formula:
[ W = frac{1}{2} L I^2 ]
where:
– ( W ) is the energy in joules,
– ( L ) is the inductance in henries,
– ( I ) is the current in amperes.
For an inductor of 100 mH (0.1 H) and a current of 2 A, the calculation is as follows:
[ W = frac{1}{2} times 0.1 times (2^2) ]
[ W = frac{1}{2} times 0.1 times 4 ]
[ W = frac{1}{2} times 0.4 ]
[ W = 0.2 text{ joules} ]
So, the energy stored in the inductor is 0.2 joules.
See less