PDF-Vibration, Rhythm, Throbbing, Pulsing, Shimmering, Wiggling, Waves

s of energy as a single light so the mystical experience shows us innumerable rrendering to vibrations and sometimes to insights that take les energy or matter It146s like water If it146s. brPage 1br PdfPTable throbbing field fails awfully boastful Chinese font capitulates abruptly messy ListItem flushes impersonally vestigal PdfPTable renders dimly caressingly paragraph concr Interpretation of Electrocardiogram Tracings. Introduction. RTs observing the onset of an ischemic cardiac event may be the first link in the chain of . survival. Early recognition of a serious cardiac problem may minimize cardiac damage or prevent death. Clk. Alexander L. Gonzales II. December 14, 2010. NORMAL SINUS RHYTHM. EKG Characteristics: Regular narrow-complex rhythm. Rate 60-100 . bpm. Each QRS complex is proceeded by a P wave. P wave is upright in lead II & . WAves. A wiggle in time is a vibration. .. A wiggle in space and time is a wave.. A vibration can exist in one location, a wave cannot. A wave must travel from one place to another.. Vibration of a Pendulum. Section 8.1. Question 1. Sample . answer:. A . vibration is the cyclical motion of an . object about . an equilibrium point. A wave is the . transfer of . energy through a material due to . vibration. Vibration . 1. Two sine waves travelling in opposite directions .  . standing wave. Some animations . courtesy of Dr. Dan Russell, Kettering University. TRANSVERSE WAVES. ON STRINGS. Travelling transverse waves, speed of propagation, wave function, string tension, linear density, reflection (fixed and free ends), interference, boundary conditions, standing waves, stationary waves, SHM, string musical instruments, amplitude, nodes, antinodes, period, frequency, wavelength, propagation constant (wave number), angular frequency, normal modes of vibrations, natural frequencies of vibration, fundamental, harmonics, overtones, harmonic series, frequency spectrum, radian, phase, sinusoidal functions. Waves-3. resonance . clocks – pendulum . springs . harmonic motion . mechanical waves . sound waves . The periodic wave relation. Wave interference. standing waves. beats. musical instruments. 1. Review. . [3]. resonance . clocks – pendulum . springs . harmonic motion . mechanical waves . sound waves . The periodic wave relation. Wave interference. standing waves. beats. musical instruments. 1. Review. Rate. Rhythm. Intervals. QRS. ST-T wave . ECG. P- QRS- T waves. Overview. Rate. Rhythm. Intervals. QRS. ST-T wave . Rate. Normal heart rate 60-100 beats per minute. Tachycardia is > 100 beats per minute. Sound waves are made up of a series of regions of high and . low pressure. . The areas of high pressure are called . compressions. . The . areas . of low pressure are called . rarefactions.. Wave energy travels through the material. But a particular piece . Use your knowledge of waves & physics to answer the question.. Sound. Longitudinal wave phenomenon that consists of successive compressions and rarefactions of the medium through which the wave travels. . A wave is a vibration. That travels from place to place. Thus it is two motions each with its own direction. The . Vibration. : a SHM. The . Propagation. ; its motion from place to place. Together they from a wave. Regularity?. regular. normal. 0.10 s. P waves?. PR interval?. 0.12 s. QRS duration?. Interpretation?. Sinus Bradycardia. Sinus Bradycardia. Deviation from NSR. - Rate . < 60 bpm. . 4. Learning Objectives. Learn a systematic approach to ECGs. Learn the common findings to be found on ECGs. Work through a number of ECGs. Systematic Approach. Patient Information. Technical Aspects. Rate, rhythm and axis.