A 212^Bi (bismuth) nucleus undergoes alpha decay, resulting in a 208^Tl (thallium) nucleus and a 4^He (helium) nucleus as per the following reaction: 212^Bi →208^ Tl + 4 ^He The masses of each nucleus is listed in the table below. Given that the bismuth atom was at rest before the reaction, if the resulting thallium nucleus is traveling 3.3 × 10^5 m/s, how fast is the helium nucleus traveling? 4. A 212 Bi (bismuth) nucleus undergoes alpha decay, resulting in a 208TI (thallium) nu-cleus and a 4He (helium) nucleus as per the following reaction:212 Bi 208 Tl + HeThe masses of each nucleus is listed in the table below. Given that the bismuth atomwas at rest before the reaction, if the resulting thallium nucleus is traveling 3.3 × 105m/s, how fast is the helium nucleus traveling?Nucleus212 Bi208 TI4HeMass (GeV/c²)197.468361193.7340233.7284013IMass (kg)3.52020008 x 10-253.45362460 x 10-256.646483 x 10-27

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A 212^Bi (bismuth) nucleus undergoes alpha decay, resulting in a 208^Tl (thallium) nucleus and a 4^He (helium) nucleus as per the following reaction: 212^Bi →208^ Tl + 4 ^He The masses of each nucleus is listed in the table below. Given that the bismuth atom was at rest before the reaction, if the resulting thallium nucleus is traveling 3.3 × 10^5 m/s, how fast is the helium nucleus traveling?

A 212^Bi (bismuth) nucleus undergoes alpha decay, resulting in a 208^Tl (thallium) nucleus and a 4^He (helium) nucleus as per the following reaction: 212^Bi →208^ Tl + 4 ^He The masses of each nucleus is listed in the table below. Given that the bismuth atom was at rest before the reaction, if the resulting thallium nucleus is traveling 3.3 × 10^5 m/s, how fast is the helium nucleus traveling?

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