The frequency of the applied voltage is constant.
No. Your speed is constant but your velocity is not. Velocity is a vector and as you run around a track, the direction of your motion changes and so the velocity changes - not in magnitude but in direction.
If the distance/time graph is a straight line that makes a constant angel with the time axis, then the body's speed is constant, and is equal to the slope of the straight line (tangent of the constant angel).
Answer
Yes, it is. Trajectory also depends of direction of acceleration, not only it's magnitude. When you consider circular orbit, the agnitude of centripetal acceleration is constant, but the vector directions changes every moment to point constantly at the center.
It is one of the constant key word and it is used only in run time
YES - If the variable i a constant (final variable that is already initialized) NO - If the variable is not constant and is assigned at run time.
A constant variable cannot have its value changed at program run time.
The frequency of the applied voltage is constant.
constant run
No. Your speed is constant but your velocity is not. Velocity is a vector and as you run around a track, the direction of your motion changes and so the velocity changes - not in magnitude but in direction.
I think you mean constants. A constant is a variable that can not have its value changed at run time eg. const int a = 100;
A resistor by itself has no time constant. For a circuit to have a time constant it must contain either capacitors or inductors.
The time constant of an RL series circuit is calculated using the formular: time constant=L/R
In theory ... on paper where you have ideal components ... a capacitor all by itself doesn't have a time constant. It charges instantly. It only charges exponentially according to a time constant when it's in series with a resistor, and the time constant is (RC). Keeping the same capacitor, you change the time constant by changing the value of the resistor.
No the ozone hole is not constant over the time
Acceleration with respect to time = a , where 'a' is a constant.