In a calibrated integrated assessment model we investigate the differential impact of additive and multiplicative damages from climate change for both a socially optimal and a business-as-usual scenario in the market economy within the context of a Ramsey model of economic growth. The sources of energy are fossil fuel which is available at a cost which rises as reserves diminish and a carbon-free backstop supplied at a decreasing cost. If damages are not proportional to aggregate production output, and the economy is along a development path, the social cost of carbon and the optimal carbon tax are smaller as damages can more easily be compensated for by higher output. As a result, the economy switches later from fossil fuelto the carbon-free backstop and leaves less fossil fuel in situ. This is in contrast to a partial equilibrium analysis with damages in utility rather than in production which finds that the willingness to forsake current consumption to avoid future global warming is higher (lower) under additive damages in a growing economy if the elasticity of intertemporal substitution is smaller (bigger) than one.