3) A bullet with a mass of 6 g and a speed of 300 m/s passes through a stationary wheel with a vertical distance of 12 cm from its centre. The wheel is a disc with a mass of 2 kg and a radius of 16 cm, and it can turn around a shaft through its center. The final velocity of the bullet is 170 m/s. What would be the angular velocity, angular momentum, and kinetic energy of the wheel in this case? Is the total kinetic energy conserved? 3) Kütlesi 6 g, sürati 300 m/s olan bir mermi, durgun olan bir tekerleğin içinden, merkezindendik uzaklığı 12 cm olacak şekilde geçmektedir. Tekerlek kütlesi 2 kg, yariçapı 16 cm olan birdisktir ve merkezinden geçen bir mil etrafında dönebilmektedir. Merminin son sürati 170 m/s'dir.Bu durumda tekerleğin açısal hızı, açısal momentumu ve kinetik enerjisi ne olur? Toplam kinetikenerji korunur mu?

The angular momentum is given by --(eq-1) Where m is mass, v is velocity and r is the radius. In…

A bullet with a mass of 6 g and a speed of 300 m/s passes through a stationary wheel with a vertical distance of 12 cm from its centre. The wheel is a disc with a mass of 2 kg and a radius of 16 cm, and it can turn around a shaft through its center. The final velocity of the bullet is 170 m/s. What would be the angular velocity, angular momentum, and kinetic energy of the wheel in this case?

A bullet with a mass of 6 g and a speed of 300 m/s passes through a stationary wheel with a vertical distance of 12 cm from its centre. The wheel is a disc with a mass of 2 kg and a radius of 16 cm, and it can turn around a shaft through its center. The final velocity of the bullet is 170 m/s. What would be the angular velocity, angular momentum, and kinetic energy of the wheel in this case?

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Question

3) A bullet with a mass of 6 g and a speed of 300 m/s passes through a stationary wheel with a vertical distance of 12 cm from its centre. The wheel is a disc with a mass of 2 kg and a radius of 16 cm, and it can turn around a shaft through its center. The final velocity of the bullet is 170 m/s. What would be the angular velocity, angular momentum, and kinetic energy of the wheel in this case? Is the total kinetic energy conserved?

3) Kütlesi 6 g, sürati 300 m/s olan bir mermi, durgun olan bir tekerleğin içinden, merkezinden
dik uzaklığı 12 cm olacak şekilde geçmektedir. Tekerlek kütlesi 2 kg, yariçapı 16 cm olan bir
disktir ve merkezinden geçen bir mil etrafında dönebilmektedir. Merminin son sürati 170 m/s'dir.
Bu durumda tekerleğin açısal hızı, açısal momentumu ve kinetik enerjisi ne olur? Toplam kinetik
enerji korunur mu?

Definition Definition Product of the moment of inertia and angular velocity of the rotating body: (L) = Iω Angular momentum is a vector quantity, and it has both magnitude and direction. The magnitude of angular momentum is represented by the length of the vector, and the direction is the same as the direction of angular velocity.

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