What is the function of an accelerometer?

What is the function of an accelerometer?
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Last Answer : large acceleration and deceleration

Which of the following is an example of inertia sensor? A : Thermometer B : Accelerometer C : Touch screen D : TV Remote

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Description : Which of the following is an example of infrared sensor? A : Thermometer B : Accelerometer C : Gyroscope D : TV Remote

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Which of the following is an example of contact sensor? A : Thermometer B : Accelerometer C : Gyroscope D : TV Remote

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Which of the following is an example of inertia sensor? A : Thermometer B : Accelerometer C : Touch screen D : TV Remote

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Which of the following is an example of inertia sensor? A : Thermometer B : Accelerometer C : Touch screen D : TV Remote

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Description : Which of the following is an example of contact sensor? A : Thermometer B : Accelerometer C : Gyroscope D : TV Remote

Last Answer : A : Thermometer

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Description : Which of the following is an example of inertia sensor? A : Thermometer B : Accelerometer C : Touch screen D : TV Remote

Last Answer : B : Accelerometer

Which of the following is an example of infrared sensor? A : Thermometer B : Accelerometer C : Gyroscope D : TV Remote

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From the following, which one is also known as low-frequency Transducer? (A) Stroboscope (B) Accelerometer (C) Vibrometer (D) None of the above

Description : From the following, which one is also known as low-frequency Transducer? (A) Stroboscope (B) Accelerometer (C) Vibrometer (D) None of the above

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The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that A Its natural frequency is very low in comparison to the frequency of vibration B Its natural frequency is very high in comparison to the frequency of vibration C Its natural frequency is equal to the frequency of vibration D Measurement of vibratory motion is without any reference point

Description : The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that A Its natural frequency is very low in comparison to the frequency ... is equal to the frequency of vibration D Measurement of vibratory motion is without any reference point

Last Answer : C Its natural frequency is equal to the frequency of vibration

The instrument that measures the displacement of a vibrating body is called__________ a. seismometer b. transducer c. accelerometer

Description : The instrument that measures the displacement of a vibrating body is called__________ a. seismometer b. transducer c. accelerometer

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The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that a) its natural frequency is very low in comparison to the frequency of vibration b) its natural frequency is very high in comparison to the frequency of vibration c) its natural frequency is equal to the frequency of vibration d) measurement of vibratory motion is without any reference point

Description : The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that a) its natural frequency is very low in comparison to the frequency ... is equal to the frequency of vibration d) measurement of vibratory motion is without any reference point

Last Answer : c) its natural frequency is equal to the frequency of vibration

The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that ______. (A) its natural frequency is very low in comparison to the frequency of vibration (B) its natural frequency is very high in comparison to the frequency of vibration (C) its natural frequency is equal to the frequency of vibration (D) measurement of vibratory motion is without any reference poin

Description : The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that ______. (A) its natural frequency is very low in comparison to the ... is equal to the frequency of vibration (D) measurement of vibratory motion is without any reference poin

Last Answer : (C) its natural frequency is equal to the frequency of vibration

The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that a) its natural frequency is very low in comparison to the frequency of vibration b) its natural frequency is very high in comparison to the frequency of vibration c) its natural frequency is equal to the frequency of vibration d) measurement of vibratory motion is without any reference poin

Description : The accelerometer is used as a transducer to measure earthquake in Richter scale. Its design is based on the principle that a) its natural frequency is very low in comparison to the frequency ... is equal to the frequency of vibration d) measurement of vibratory motion is without any reference poin

Last Answer : c) its natural frequency is equal to the frequency of vibration

What special requirement is the pulse counting accelerometer designed for?

Description : What special requirement is the pulse counting accelerometer designed for?

Last Answer : When digital data is required from an accelerometer.

Operation of an accelerometer is based on what physical property?

Description : Operation of an accelerometer is based on what physical property?

Last Answer : Inertia.

Accelerometer sensors are used in______ A. Smartphones B. Aircrafts C. Both D. None of above

Description : Accelerometer sensors are used in______ A. Smartphones B. Aircrafts C. Both D. None of above

Last Answer : C. Both 

Draw and explain strain guage accelerometer.

Description : Draw and explain strain guage accelerometer.

Last Answer : Ans: Diagram: Explanation The seismic mass is placed on the cantilever beam placed inside the housing . The housing is filled with fluid to create damping force. The strain gauges of ... beam bends, which produces strain on the beam. This strain is directly proportional to the acceleration. 

Drawand explain LVDT accelerometer.

Description : Drawand explain LVDT accelerometer.

Last Answer : Diagram: Explanation: The LVDT accelerometer consists of one primary and two secondary windings which are placed on either side of central code. The two ends of the core ... arises in the output terminal. This output voltage is directly proportional to the vibration or acceleration.

Explain how MEMS accelerometer is used as airbag sensor for car system.

Description : Explain how MEMS accelerometer is used as airbag sensor for car system.

Last Answer : MEMS Accelerometer is used as airbag sensor: Mechanical ignition airbags fit inside the steering wheel pad. When a collision occurs, the inertial sensor moves, setting off a ... the airbag with wiring. This is especially effective when fitting both driver- and passenger-side airbags.

Explain the construction and working of LVDT accelerometer with the help of diagram.

Description : Explain the construction and working of LVDT accelerometer with the help of diagram.

Last Answer : Explanation:* The LVDT accelerometer consists of one primary and two secondary windings which are placed on either side of central code. The two ends of the core are connected with ... in the output terminal. This output voltage is directly proportional to the vibration or acceleration. 

An accelerometer has input range of 0 to 10g, natural frequency 30 Hz and mass 0.001 kg. The range of the

Description : An accelerometer has input range of 0 to 10g, natural frequency 30 Hz and mass 0.001 kg. The range of the secondary displacement transducer in mm required to cover the input range is (A) 0 to 2.76 (B) 0 to 9.81 (C) 0 to 11.20 (D) 0 to 52.10

Last Answer : An accelerometer has input range of 0 to 10g, natural frequency 30 Hz and mass 0.001 kg. The range of the secondary displacement transducer in mm required to cover the input range is 0 to 2.76