The number of hops or router traversals in the SPF algorithm is inversely proportional to bandwidth. A higher bandwidth typically results in faster link speeds, allowing packets to travel across fewer hops to reach their destination.
The component of the SPF algorithm that is inversely proportional to bandwidth is the cost metric assigned to each link. Lower bandwidth links are assigned higher cost metrics, which indicates that it is more costly to traverse those links in terms of bandwidth consumption.
The following variables are directly proportional: Temperature and Pressure Temperature and Volume These variables are inversely proportional: Pressure and Volume
No, the force between two bodies is not always inversely proportional to their masses. The force of gravity between two objects is actually directly proportional to the product of their masses and inversely proportional to the square of the distance between them.
When ( Q ) decreases in a coil-pits oscillator, the frequency of oscillation increases. This is because the quality factor, ( Q ), is inversely proportional to the bandwidth of the oscillator. A lower ( Q ) value means a wider bandwidth, resulting in a higher frequency of oscillation.
Newton's Law of Universal Gravitation states that the force of gravity directly proportional to product of the two masses&inversely proportional to square of the distance between them
The component of the SPF algorithm that is inversely proportional to bandwidth is the cost metric assigned to each link. Lower bandwidth links are assigned higher cost metrics, which indicates that it is more costly to traverse those links in terms of bandwidth consumption.
It is inversely proportional to wave length.
Directly proportional relationship is F=ma, F is directly proportional to a. Inversely proportional relationship is v=r/t, v is inversely proportional to t.
inversely proportional
In a circuit , current is inversely proportional to the resistance.
Current is inversely proportional to resistance, this comes from the ohms law. V=IR If we keep the voltage as constant then Current will be inversely proportional to resistance
The gravity is proportional to both masses involved, and inversely proportional to the square of the distance.The gravity is proportional to both masses involved, and inversely proportional to the square of the distance.The gravity is proportional to both masses involved, and inversely proportional to the square of the distance.The gravity is proportional to both masses involved, and inversely proportional to the square of the distance.
Yes, when designing distributed amplifier, the bandwidth (cut-off frequency) is inversely proportional to Cin(Fc=1/(pi*R*Cin)). Lower Cin means higher bandwidth.
No. The word is "inversely", not "conversely". And the force of gravity is inversely proportional to the square of the distance.
Current is proportional to the potential difference and inversely proportional to resistance. Ohm's law: Current equals voltage divided by resistance
a = k/b when a is inversely proportional to b, where k is a constant.
The statement current is directly proportional to voltage and inversely proportional to resistance is known as Ohm's Law.