The coin would probably slowly slide down whichever end it is closer to, weigh down the end of the paper, and fall off. It kinda depends on how you hold the paper though, because if it is directly in middle, and you hold it on both ends, it will stay on the paper.
Answer:
The maximum no. of electrons- 
Solution:
As per the question:
Maximum rate of transfer of charge, I = 1.0 C/s
Time, t = 1.0 h = 3600 s
Rate of transfer of charge is current, I
Also,
Q = ne
where
n = no. of electrons
Q = charge in coulomb
I = current
Thus
Q = It
Thus the charge flow in 1. 0 h:
Maximum number of electrons, n is given by:
where
e = charge on an electron = 
Thus
Answer:
R_eq = 6 Ω
Explanation:
In a series circuit the current is constant throughout the circuit and the resistance is the sum of all the resistances in it.
R_eq = ∑
in this case we have
R_eq = R₁1 + 3 R₂
where R₁ is the resistance of the fan and R₂ the resistance of each light, we must clarify that we will assume that the resistance of the lights does not change with temperature
let's calculate
R_eq = 3 + 3 1
R_eq = 6 Ω
Answer: 0.471 m/s
Explanation:
We are given the followin equation:
(1)
Where:
is the Reynolds Number, which is adimensional and indicates if the flow is laminar or turbulent
When 
we have a laminar flow
When 
we have a turbulent flow
When 
the flow is in the transition region
is the diameter of the pipe. If the pipe ha a radius 
its diameter is 
is the average speed of the fluid
is the density of the fluid
is the viscosity of the fluid
Isolating :
(2)
Solving for 
(3)
Finally:
