gravity!
There is no special formula for that: if you convert KE to PE, every joule of KE becomes one joule of PE. For practical calculations, you often have to use the KE and PE formulae separately.
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This is called gravitational potention energy and is represented by PE in the formula PE=mgh (mass times acceleration due to gravity times height).
pe = m*g*h where m = mass, g = force of gravity and h = height
The equation for potential energy is P.E.=mass*gravitation*height Over here gravitation is constant cos the questions will be related to the earth So g=10 or 9.8 Pe=mgh
PE=MGH means the potential energy equals to the mass times the gravity times the height
PE would be Polyethylene, check ISO for TC.
There is no special formula for that: if you convert KE to PE, every joule of KE becomes one joule of PE. For practical calculations, you often have to use the KE and PE formulae separately.
BF =( Tdb,out - Tcoil )/(Tdb,in - Tcoil) Source: MERM for the PE Exam - Michael Lindeburg, PE
Potential Energy
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The diagram of IE plus SE equals PE represents the relationship between kinetic energy (KE), potential energy (PE), and the total mechanical energy (E) of an object. In this diagram, IE represents the initial energy, SE represents the additional energy supplied, and PE represents the potential energy gained. The total mechanical energy of the object is the sum of the initial energy and the additional energy, which can be converted into potential energy.
This is called gravitational potention energy and is represented by PE in the formula PE=mgh (mass times acceleration due to gravity times height).
itis steric acid coated calcium carbonate with PE
A=Pe^rt A=Total Invested P=Principal r=Rate t=time
This statement has to be false because the amounts do not add up to 100. They only add up to 90.
PE=(1/2)CV^2 where C is the capacitance and V is the total electrostatic potential (voltage).