<span>So, if the man weight 900 newtons on Earth then that means, using F=ma, that the mass of the man is approximately 91.84 kg. This is because 900N=m(9.8m/s^2), and so it follows that 900/9.8=91.84. Using the man's found mass we then plug this into F=ma again. It follows that F=(91.84)(25.9)=2378.57N. This means that the man "weighs" 2378.57 Newtons on Jupiter, or about 2.5x as great as his weight on Earth. This makes sense, considering that 25.9/9.8 is approximately equal to 2.64.</span>
Answer:
4m/s2
Explanation:
The following data were obtained from the question:
U (initial velocity) = 10m/s
V (final velocity) = 30m/s
t (time) = 5secs
a (acceleration) =?
Acceleration is the rate of change of velocity with time. It is represented mathematically as:
a = (V - U)/t
Now, with this equation i.e
a = (V - U)/t, we can calculate the acceleration of the race car as follow:
a = (V - U)/t
a = (30 - 10)/5
a = 20/5
a = 4m/s2
Therefore, the acceleration of the race car is 4m/s2
Answer:
The wavelength of the electron is
Explanation:
Given that,
Temperature = 300 K
We know that,
The energy of free electron is
Where, k = wave number
The momentum of the electron is
Th effective mass is
We need to calculate the wavelength of the electron
Using formula of wave number
Put the value of k
We know that,
Thermal energy of electron
The de Broglie wavelength of the electron is
Put the value into the formula
Hence, The wavelength of the electron is
Answer:
d
Explanation:
im pretty sure. just makes the best sense. If im wrong im very sorry.
Start with basic concept that you have the same amount of watts it's just how far away you are dictates the watts/meter squared (per area). As the distance from the object is increased, the area increases as distance squared (think of a sphere of increasing radius, as you increase the radius, the surface area increases as r^2, double radius, you get 4 times area, triple radius, 9 times area, and so forth). so safe from acoustical effects (reflections off walls, etc) as you increase the distance from a speaker, the sound will decrease by a factor of the distance squared, as before 2x distance =1/4 power, 3x distance =1/9 power.
<span>so the only thing left out of your questions is what distance from speaker is the level at 10^-6 W/m^2 and what distance is point B from the speaker, and apply the 1/distance^2 principle. </span>
<span>The power at point B (PB) is the following: </span>
<span>power at given power level (we will call this point A or PA). </span>
<span>PB=PA*(DA/DB)^2 </span>
<span>Where PB is power level at PB (in W/m^2) </span>
<span>PA=power at point A or 10^-6 W/m^2 </span>
<span>DA=distance from speaker to point A </span>
<span>DB=distance from speaker to point B. </span>