Answer: Thermal Heat. Its Thermal something
I just passed it and forgot the answer
The specific heat of the substance being
Q=mc∆T
That's not a question. Q = (m)(c)(deltaT)
variable c
There are many equations that represent the energy it takes to heat up a substance, depending on which aspect of "heating" you refer to. Probably the one in question here is q = mC∆T where q = amount of heat energy; m = mass of the object; C = specific heat of that object; ∆T= change in temperature.
Q = MC(delta T). So, the change in temperature is equal to Q/MC. This expands to 259/(25 * 4.18). The final temperature is 24.48 degrees Celsius.
Q=mc∆T
== Q== mc(delta)T == Q=thermal energy m= mass c=specific heat (ex. water is 4.184 J/goc) deltaT= change in temperature
That's not a question. Q = (m)(c)(deltaT)
Type your answer here... The variable Q
variable c
variable c
The variable c
The mass of copper is 240 g.Use the following formula:q = m x c x DeltaT,where:q is energy, m is mass, c is specific heat capacity, and DeltaT is the change in temperature.DeltaT = Tfinal-TinititalKnownq = 1200 calcCu = 0.0923 cal/g.oCTinitial = 20oCTfinal = 75oCDeltaT = 75oC - 20oC = 55oCUnknownmass of copperSolutionRearrange the equation q = m x c x DeltaT to isolate m. Plug in the known values and solve.m = q/(c x DeltaT)m = 1200/(0.0923 x 55) = 240 g (rounded to two significant figures)
It is not an equation, but q2 meaning q^2 represents q being multiplied by itself.
For gravity: Q = mgh For kinetic: Q = 1/2 m v^2 For heat: Q = mc(final temp. - initial temp) For electricity: Q = V I t
MC Q-Bah was born in 1983.
Heat load is calculated by the following equation Q=m*cp*deltaT m=mass flow rate cp=specific heat deltaT=difference in temperature