Neon light recharge them self with more light and electricity, they rapidly give out
the energy they absorbed to get themselves back to normal again. They
do this by giving out tiny packets of light energy
called photons. I;m not sure if this helps but you gave no info really on what you were asking like if there were choices that would have been helpful to see :p
Two things make up a vector: magnitude and direction.
Two vectors having the same magnitude doesn't guarantee that they have the same direction, and therefore it's not a guarantee that they are equal.
Answer: 4.29 m/s
Explanation:
Given
Depth of the well, s = 8.23 m
Time taken to reach the well, t = 0.93 s
Speed of sound = 343 m/s
To solve this, we would be using one of l the laws of motion.
S = ut + 1/2gt², where
S = depth of the well
u = initial speed of toss
g = acceleration due to gravity
t = time taken to reach the well
We would then have
8.23 = 0.93 u + 1/2 * 9.8 * 0.93²
8.23 = 0.93 u + 4.9 * 0.8649
8.23 = 0.93 u + 4.23801
0.93 u = 8.23 - 4.23801
0.93 u = 3.99199
u = 3.99199 / 0.93
u = 4.29 m/s
Therefore, the initial speed of the coin is 4.29 m/s
Answer:
, in the direction of F2
Explanation:
The magnitude of F2 is larger than that of F1: this means that the wagon will tend to move in the direction of F2. Therefore, the direction of friction will be opposite to the direction of motion, therefore in the direction of F1.
Let's now take the direction of the force exerted by the second child, F2, as positive direction. Then the direction of F1 and of the force of friction () will be negative: so we have
We can write the equation of the forces for the third child+wagon:
where
m = 30.0 kg is the combined mass of the child + the wagon
Now we can solve the equation for a, to find the acceleration:
They make interference waves