6. A medical ultrasound imaging machine has an ultrasonic transducer (m=0.10 g) which is driven in...
6. A medical ultrasound imaging machine has an ultrasonic transducer (m=0.10 g) which is driven in simple harmonic motion at 1.3 MHz. A. If the maximum restoring force the disk can withstand is 38,000 N, what is the maximum amplitude that will not destroy the disk. B. What is the maximum speed of the disk?
A medical ultrasound imaging machine has an ultrasonic transducer (m=0.10 g) which is driven in simple harmonic motion at 1.3 MHz. A. If the maximum restoring force the disk can withstand is 38,000 N, what is the maximum amplitude that will not destroy the disk. B. What is the maximum speed of the disk?
A medical ultrasound imaging machine has an ultrasonic transducer (m-0.10 g) which is driven in simple harmonic motion at 1.3 MHz A. If the maximum restoring force the disk can withstand is 38,000 N, what is the maximum amplitude that will not destroy the disk. B. What is the maximum speed of the disk? 6.
An ultrasonic transducer of the type used in medical ultrasound imaging, is a very thin disk (m = 0.10 g) driven back and forth in SHM at 1.2 MHz by an electromagnetic coil. (a) The maximum restoring force that can be applied to the disk without breaking it is 36,000 N. What is the maximum oscillation amplitude that won't rupture the disk? (b) What is the disk's maximum speed at this amplitude? X m/s
The ultrasonic transducer used in a medical ultrasound imaging device is a very thin disk (m = 0.10 g) driven back and forth in SHM at 1.0 MHz by an electromagnetic coil. Part A The maximum restoring force that can be applied to the disk without breaking it is 39,000 N. What is the maximum oscillation amplitude that won't rupture the disk? Express your answer to two significant figures and include the appropriate units. Part B What is the disk's...
An ultrasonic transducer, of the type used in medical ultrasound imaging, is a very thin disk ( m = 0.13 g ) driven back and forth in SHM at 1.0MHz by an electromagnetic coil. The maximum restoring force that can be applied to the disk without breaking it is 3.7×104 N . What is the maximum oscillation amplitude that won't rupture the disk? What is the disk's maximum speed at this amplitude?
ReviewI Constants Part A The ultrasonic transducer used in a medical ultrasound imaging device is a very thin disk (m-0.10 g) driven back and forth in SHM at 1.0 MHz by an electromagnetic col. The maximum restoring force that can be applied to the disk without breaking it is 47,000 N. What is the maximum oscillation amplitude that won't rupture the disk? Express your answer to two significant figures and include the appropriate units. A.1 Value Units Submit ▼ Part...
Review | Constants Periodic Table The ultrasonic transducer used in a medical ultrasound imaging device is a very thin disk (m=0.10 g) driven back and forth in SHM at 1.0 MHz by an electromagnetic coil. Part A The maximum restoring force that can be applied to the disk without breaking it is 41,000 N. What is the maximum oscillation amplitude that won't rupture the disk? Express your answer with the appropriate units. НА ? A= Value Units Submit Request Answer...
An ultrasonic transducer, of the type used in medical ultrasound imaging, is a very thin disk ( m = 0.14g ) driven back and forth in SHM at 1.0MHz by an electromagnetic coil. Part A: The maximum restoring force that can be applied to the disk without breaking it is 3.9
An ultrasonic transducer, of the type used in medical ultrasound imaging, is a very thin disk ( m = 0.16g ) driven back and forth in SHM at 1.0MHz by an electromagnetic coil. Part A The maximum restoring force that can be applied to the disk without breaking it is 3.2