PE=m x g x h, so g = PE / (m x h)
If we have a binary symmetric channel with an error probability Pe , then for error freecommunication over this channel, message from a source with entropy H(m) must be encoded by binary codes with a word length of at least H(m)/Cs whereCs = 1-[ Pe log(1/ Pe)+(1- Pe) log( ) ]The parameter Cs is called the channel capacity.Source: ewhatnhow.com/what-is-channel-capacity/
Answer : potential energy (PE) = m *g *h m= mass of object (kg) g= gravity = 10 m/s2 h= height (m) PE = m *g *h 9800 = 200 * 10 *h 9800= 2000 h h= 4.9 m
pe = m*g*h where m = mass, g = force of gravity and h = height
gravity!
Potential energy = mass * gravity * height Ep=mgh You should know the mass of the object and gravity as 9.81. So rearranging the formule Ep/mg=h. Potential energy / (mass * gravity) = height.
PE=mgh M=3kg H=2kg G=10m/s2
It remains the same. The formula for determining PE is PE = m•g•h, where m is mass in kg, g is 9.8m/s2, and h is height above the ground in meters. Temperature is not a factor in determining potential energy.
Mapeh is the specialization in Music, Arts, Physical Education, and Health.
PE = m•g•h, where m is mass in kg, g is 9.8m/s2, and h is height above the earth in meters. When the ball hits the ground, it is zero meters above the earth, therefore its PE is zero.
Use PE = m x g x h Given m = 5 kg, h = 3 m and g = 9.8 m/s2 Plug and get the required by yourself
pe pe pe vagina