m and Estimate the penetration distance Ax of a small ball of radius r = 10- density p= 2650 kg/m³, thrown at a potential barrier at velocity v = 10 m/s. The height of the potential barrier is twice the kinetic energy of the ball. 10-28 m 10-30 m 10-32 m 10-34 m 10-36 m 100 m -40 10 m
m and Estimate the penetration distance Ax of a small ball of radius r = 10- density p= 2650 kg/m³, thrown at a potential barrier at velocity v = 10 m/s. The height of the potential barrier is twice the kinetic energy of the ball. 10-28 m 10-30 m 10-32 m 10-34 m 10-36 m 100 m -40 10 m
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![Estimate the penetration distance Ax of a small ball of radius r= 10-² m and
density p 2650 kg/m³, thrown at a potential barrier at velocity v= 10 m/s. The
height of the potential barrier is twice the kinetic energy of the ball.
10-28 m
10-30 m
10-32 m
10-34 m
10-36 m
10-90 m
10-40 m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8e89ef0a-33d1-4265-a2d3-59ecd3a68079%2Fd54af181-f3c8-441a-82ce-f1e519b0e5e6%2F6kl5bj6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Estimate the penetration distance Ax of a small ball of radius r= 10-² m and
density p 2650 kg/m³, thrown at a potential barrier at velocity v= 10 m/s. The
height of the potential barrier is twice the kinetic energy of the ball.
10-28 m
10-30 m
10-32 m
10-34 m
10-36 m
10-90 m
10-40 m
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