Q = mcΔT or Q=cpmΔT
Q is the amount of heat needed to change the temperature of a substance
m is the mass of the heated substance
cp is the specific heat capacity (if this is what you're looking for, then the equation should be Q / mΔT = cp )
ΔT (pronounced delta T) is the temperature difference; the difference in temperature before and after you applied the heat
A very helpful PowerPoint: http://www.seaford.k12.de.us/es/smalley/ps%20unit%20lect/Heat%20and%20temperature.ppt
Energy (J) = Grams * Specific Heat Capacity (J/g deg) * ΔTemperature,
but more like a normal formula:
E = m*Cp*ΔT
^
That's used to calculate Enthalpy. You can't calculate specific heat by using specific heat!
To calculate specific heat, divide the amount of heat(Joules or Calories) by mass (grams) x change in temperature (C).
H / (M x changeintemperature)
Q = mcΔT Q is the amount of heat needed to change the temperature of a substance m is the mass of the heated substance c is the specific heat capacity (if this is what you're looking for, then the equation should be Q / mΔT = c) ΔT (pronounced delta T) is the temperature difference; the difference in temperature before and after you applied the heat A very helpful PowerPoint: http://www.seaford.k12.de.us/es/smalley/ps%20unit%20lect/Heat%20and%20temperature.ppt
The correct formula for specific heat is c = m * (change in temperature) / Q where m is the mass and Q is the heat added. Specific heat is the amount of heat per unit mas required to raise the temperature by 1 degree C.
Cp= q/m*deltaT (m= mass, delta T= change in temp, q= joules)
Mass = Energy / (Temp Change X SHC)
MCdeltaT=MCdeltaT
The formula for specific heat is Q = MCdeltaT. DeltaT can also be expresed by (T final - T initial). The specific heat of water is 1 calorie/gram °C = 4.186 joule/gram °C
The formula to calculate the change in temperature (ΔT) when specific heat (C) and heat (Q) are given is ΔT = Q / (m * C), where m represents the mass of the substance. If the initial and final temperatures are required, then the formula can be rearranged as Tfinal = Tinitial + ΔT.
The value of the heat ratio to be 1 would be H = C-P times T. This is the formula that is used.
specific heat capacity
Water has much higher specific heat than lead. All metals have fairly low specific heat values.
the formula to find specific heat is specific heat= calories/mass X change in temperature.
heat capacity- ML2T-2K-1 Specific Heat Capacity-M0L2T-2K-1
The formula for specific heat is Q = MCdeltaT. DeltaT can also be expresed by (T final - T initial). The specific heat of water is 1 calorie/gram °C = 4.186 joule/gram °C
(change of heat) ____________________ (change of temp)(mass)
Heat Rejection = mass x specific weight x specific density x difference in temp
The formula to calculate the change in temperature (ΔT) when specific heat (C) and heat (Q) are given is ΔT = Q / (m * C), where m represents the mass of the substance. If the initial and final temperatures are required, then the formula can be rearranged as Tfinal = Tinitial + ΔT.
Answer depend on the following formula Q=mst where Q is Heat, m is mass , s is specific heat and t is rising temperature. so according to its formula , s is direct positional to Q and inverse proportional to m and t
The formula for finding the amount of heat transferred to an object is Q = mc(change in T). Q represents heat energy in J, m is the mass of the object in kg, and c is the specific heat of the material.
Cp-Cv is the relation of Mayer's formula. It can also be defined in words as the difference between two specific heat capacities.
Just use the definition of specific heat. Use the following formula: (energy) = (mass) x (temperature difference) x (specific heat) Replace the amounts you know, and solve for the one you don't - in this case, the specific heat.
The value of the heat ratio to be 1 would be H = C-P times T. This is the formula that is used.
J (Joules) = Kg (Mass) x Specific Heat (Sometimes C, which is calories, but most times specific heat which is q) x Delta T (Change in temperature). J = m*q*▲T