Unit2_VirtualLabImpulse_Momentum (1)

H.W Q1: In your own words, explain how the galvanometer works? Q2: In your own words, what are the cases of dynamic behavior of PMMC?

Make graphs of induced voltage vs. time in each of the following cases.  Draw each graph below and explain briefly. a) A stationary magnet lying in a stationary coil. b. Holding the coil stationary, moving the magnet horizontally in and out of the coil. c) Moving the magnet and the coil as a unit, back and forth horizontally d. Holding the magnet stationary, and moving the coil in and out horizontally.e. Does it matter which moves ? What would happen if they both move towards each other? Explain.d) Holding the magnet stationary, and moving the coil in and out horizontally.

A person working at a drafting board may hold her head as shown in the figure below, requiring muscle action to support the head. (Assume that FM = 67 N and w = 34 N.) w=50 N F e F=60 N The three major forces acting are shown. Calculate the magnitude in newtons and direction (e) in degrees of the force supplied by the upper vertebrae Fy to hold the head stationary, assuming that this force acts along a line through the center of mass as do the weight and muscle force. magnitude N 0|| degrees Enter an integer or decimal number [more..]

Please answer number 5 .Please put complete solution and box the final answer .This topic about Application of Differential Equations.

Consider a resistor and an inductor is connected in series with a battery. Drive anexpression for energy stored in the magnetic field of a current carryingconductor. Description: The topics of the question are discussed satisfactorily withsuitable expressions, figures, and appropriate illustrationswith high accuracy & clarity.

Answer all the questions with the most detail as possible! Thank you

Subject : Power electronics

4. Which of the following is a mathematically incorrect operation and why? a) gradient of a divergence b) curl of a gradient c) gradient of a curl d) divergence of a curl

Electrical Enginnering _ Energy Conversion System Notes : pls solve in less than 30 min.

Goal:The intent of this problem is to understand how electrostatic models can be used outside of electrical engineering. This basic model is used to understand chemical reactions, bonding, and other forms of atomic processes. It also shows you the strength of electrostatic forces in an atom. The Thomson model of a hydrogen atom is a sphere of positive charge with radius Ro with an electron (a point charge) at its center. The total positive charge equals the electronic charge q. What is the force of attraction between an electron at a distance R from the center of the sphere of positive charge? OOOO qR 4π€, Ro O q²R 3πEO q²R 4π€, Ro

Please solve thiss questionnnnn

Why it is important to study the determination of the electromotive force (EMF) in reference to engineering, especifically, Industrial Engineering. Discuss the importance of knowing the lessons behind this topic.

There are 6 equations that govern electromagnetism. Write them out in CGS and differential form (except for one in integral form). Assume the magnetostatic case.

Plz harry

PLEASE ANSWER BOTH QUESTIONS FOR UPVOTES. NO UPVOTE IF ONLY ONE HAS AN ANSWER. PUT ONLY BRIEF EXPLANATIONS ON CHOOSING THE CORRECT ANSWERS. THANK YOU

5. In a mechanical translational system, what is the relationship between the displacement of (a) a spring and the force resulting from the displacement? (b) of a damper and the force resulting from the displacement?

Electrical Engineering Using the power-angle characteristic illustrate the Critical Clearing Angle (CCA) for three different values of inertia, H, and comment on your findings. That is, how does the inertia impact on the CCA

Plz solution all part give up vote

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6. Why is it important to measure Strain? 7. What is your own understanding of Young's Modulus? 8. What is the major difference between stress and strain? 9. What is the mathematical relationship between voltage and strain based on your data? 10. What is the mathematical relationship between voltage and stress based on your data?

SUBJECT: PHYSICS

please answe asap.. answer only. ADVANCED PHYSICS (THUMBS UP WILL BE GIVEN. PLEASE CHOOSE THE CORRECT ANSWER. NO LONG EXPLANATION NEEDED.)

Problem begins here: A piece of electrical component inside a gaming laptop uses a source of electromotive force, resistor, and inductor. If the voltage, resistance, and inductance are 4sin4t volts, 2 ohms, and 1 henry, respectively, what is the current along the circuit after 2 seconds when the initial current applied to the circuit is 0.6 amperes? Assume Kirchhoff's Voltage Law applies which states that travelling around any loop/circuit, the gains and losses of voltage across the elements add up to zero. Do not round off intermediate steps. Round off the final answer to two decimal places.

Can you please help explain and show how to solved these hw questions?

1. A skateboarder takes off from a track with elevated curved ends and a flat central part. The flat part has a length L. The curved portions of the track have negligible friction, but the flat part of the track has a coefficient of kinetic friction of Hx. The skateboarder leaves from rest from a height h on the left curved portion of the track. a. Draw the following six energy bar diagrams System: Skateboarder 1. Top of track to beginning of flat part of track 2. Beginning of flat part of track to end of flat part of track 3. End of flat part of track to highest point the Skateboarder reaches on right side of track System: Everything 1. Top of track to beginning of flat part of track 2. Beginning of flat part to of track end of flat part of track 3. End of flat part of track to highest point the Skateboarder reaches on right side of track i. ii. b. Show that the maximum height reached by the skateboarder on the right curved portion of the track will be given by h, = h – Hz L. c. What…

Explain the hysteresis that can be found in materials due to force, magnetic and electrical subjection (give an example on two different materials below)   show and explain the hysteresis curves for these materials.  1)High carbon steel 2)Cast iron

Write the answers precisely, do not elaborate unnecessarily, and don't use chatgpt, if i caught it I'm gonna downvote Question: Discuss the electrochemical techniques that are useful to study the capacitive properties of a material. Highlight the importance of each technique

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. To stretch a spring 3.00 cm from its unstretched length, 12.0 J of work must be done. (a) What is the force constant of this spring? (b) What magnitude force is needed to stretch the spring 3.00 cm from its unstretched length? (c) How much work must be done to compress this spring 4.00 cm from its unstretched length, and what force is needed to compress it this distance?

Please computerize. Don't write. Answer a, b, c