B. the current in the circuit divides so that some flows through one component
Answer:
No
Explanation:
The period of a pendulum is given by
where
L is the length of the pendulum
g is the acceleration due to gravity
We see that the period of the pendulum depends on the value of g. However, the value of the gravitational acceleration is different at different locations on Earth. In particular, at the top of the mountain the value of g is slightly lower than the value of g at the base of the mountain; in fact, g is given by
where
G is the gravitational constant
M is the Earth's mass
r is the distance from the Earth's center
so since r is greater at the top of the mountain, g is lower, and therefore the period of the pendulum will be slightly longer.
Answer:
cout<<count;
Explanation:
cout<<count;
The above is a C++ command will write to the standard output device (stdout).
That means that one is printing an output on the main output device for that session... whatever that may be (any output device such as monitor, printer, the user's console, a tty session, a file etc).
What that device may be varies depending on how the program is being run and from where.
The kind of statement that writes to standard output are print statement
By just smiling. It normally makes you look more happy.And if your happy that's positive body languge
If a capacitor's dielectric constant is vacuum its dielectric constant is k will be equal to 1.
<u>Explanation:</u>
Relative permittivity of a dielectric substance is referred to as its dielectric constant. Relative permittivity/dielectric constant k is a dimensionless quantity that is the ratio of absolute permittivity and vacuum permittivity.
It is given by the expression
k=k=ε /ε0
where ε denotes absolute permittivity and ε0 denotes permittivity of vacuuum.
Absolute permittivity ε of vacuum= ε0
therefore k= ε0/ ε0=1
dielectric constant of vacuum is 1 .
