## How do you find the specific heat of silver?

The specific heat of silver is 0.233J/g-K. This can also be written as 2.46J/g-degree Celsius.

## What is the specific heat of silver Masteringchemistry?

The specific heat of silver (Ag) is 0.245 J/ºC g. Determine the energy required to raise the temperature of 350.

## What is the specific heat of silver chegg?

The molar heat capacity of silver is 25.35 J/mol⋅∘C.

## What is the actual specific heat capacity of the silver in the calorimetry lab?

Temperature Change and Heat Capacity

Substances Specific Heat (c)
Iron, steel 452 0.108
Silver 235 0.0562
Wood 1700 0.40

## How do I calculate specific heat?

How do I calculate specific heat? Q = m*s*dT, where Q = heat, m = mass, s = specific heat, and dT is the change in temperature (T2 – T1). You can use this formula to calculate the specific heat. In the case of gases, just replace the mass by moles of the gas.

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## What are the units of specific heat?

The units of specific heat capacity are J/(kg °C) or equivalently J/(kg K). The heat capacity and the specific heat are related by C=cm or c=C/m. The mass m, specific heat c, change in temperature ΔT, and heat added (or subtracted) Q are related by the equation: Q=mcΔT.

## What is the specific heat of sodium?

Substance Specific Heat Capacity at 25oC in J/goC
sodium 1.23
air 1.020
magnesium 1.020
aluminum 0.900

## What is SI unit of specific heat capacity?

Specific heat capacity is defined as the amount of heat required to raise the temperature of 1 kilogram of a substance by 1 kelvin (SI unit of specific heat capacity J kg−1 K−1).

## What is the specific heat of water?

The SI unit of specific heat is joule per kelvin and kilogram, J/(K kg). For example, the heat required to raise the temperature of 1 kg of water by 1 K is 4179. 6 joules so the specific heat capacity of water is 4179.

## How do you calculate temperature change in specific heat capacity?

When heat transfer is involved, use this formula: change in temperature = Q / cm to calculate the change in temperature from a specific amount of heat added. Q represents the heat added, c is the specific heat capacity of the substance you’re heating, and m is the mass of the substance you’re heating.

## Does a calorimeter absorb heat?

Ideally, the components of the calorimeter would absorb no heat, but the components of the calorimeters always absorb some energy from the system. This assumes no heat is lost to the surroundings from the calorimeter. Heat lost by hot water = heat gained by cold water + heat gained by calorimeter.

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## Does specific heat depend on temperature?

Therefore specific heat does not depend on temperature.