1. in a mass spectrometer atoms are separated due to the different in their masses of a particle of mass m follows a semicircular path with radius E. what will be the radius of a particle with mass 2m? 2. A quantity of ideal gas requires 800 kJ to raise the temperature of the gas by 10.0 K When the gas is maintained at constant volume. The same quantity of gas requires 900 kJ to raise the temperature of the gas by 10.0 K when the gas is maintained at constant pressure. What is the adiabatic constant for this gas?
1. in a mass spectrometer atoms are separated due to the different in their masses of a particle of mass m follows a semicircular path with radius E. what will be the radius of a particle with mass 2m? 2. A quantity of ideal gas requires 800 kJ to raise the temperature of the gas by 10.0 K When the gas is maintained at constant volume. The same quantity of gas requires 900 kJ to raise the temperature of the gas by 10.0 K when the gas is maintained at constant pressure. What is the adiabatic constant for this gas?
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1. in a mass spectrometer atoms are separated due to the different in their masses of a particle of mass m follows a semicircular path with radius E. what will be the radius of a particle with mass 2m?
2. A quantity of ideal gas requires 800 kJ to raise the temperature of the gas by 10.0 K When the gas is maintained at constant volume. The same quantity of gas requires 900 kJ to raise the temperature of the gas by 10.0 K when the gas is maintained at constant pressure. What is the adiabatic constant for this gas?
pls answer both ty
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