In the figure below: E1 =18V, E2=12V, E3 =6V, R1=R3=4Ω, R2=8Ω, R4 =12Ω.
a. Find the current in each branch of the circuit (three in total).b. Set up a loop equation for the loop you did not use in your earlier calculations. Then verify your answers to part a. by testing them in the equation.
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In The Figure Below A 6 00 G Bullet Is Fired Horizontally At Two Blocks At Rest
/in Uncategorized /by developerIn the figure below, a 6.00 g bullet is fired horizontally at two blocks at rest on a frictionless tabletop. The bullet passes through the first block, with mass 1.20 kg, and embeds itself in the second, with mass 1.80 kg. Speeds of 0.630 m/s and 1.40 m/s, respectively, are thereby given to the blocks. (Note: You may neglect the mass removed from the first block by the bullet.)(a) Find the speed of the bullet immediately after it emerges from the first block.(b) Find the bullet’s original speed.(c) How much mechanical energy was dispelled into the environment during the bullet’s collision with the first block?(d) How much mechanical energy was dispelled into the environment during the bullet’s collision with the second block?
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In The Figure Below E1 18v E2 12v E3 6v R1 R3 4 R2 8 R4 12 Find The Current In E
/in Uncategorized /by developerIn the figure below: E1 =18V, E2=12V, E3 =6V, R1=R3=4Ω, R2=8Ω, R4 =12Ω.
a. Find the current in each branch of the circuit (three in total).b. Set up a loop equation for the loop you did not use in your earlier calculations. Then verify your answers to part a. by testing them in the equation.
http://d2vlcm61l7u1fs.cloudfront.net/media%2Fe89%2Fe89bc16f-1964-414c-9f1b-4e87c0c6c82c%2FphptdjJj8.png
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In The Figure Below Suppose That The Switch Has Been Closed For A Length Of Time
/in Uncategorized /by developerIn the figure below, suppose that the switch has been closed for a length of time sufficiently long enough for the capacitor to become fully charged. (R = 11.0 k, R2 = 19.0 k, R3 = 5.00 k, ΔV = 8.70 V)(a) Find the steady-state current in each resistor.IR =
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In The Figure Below The Cube Is 39 6 Cm On Each Edge Four Straight Segments Of W
/in Uncategorized /by developerIn the figure below, the cube is 39.6 cm on each edge. Four straight segments of wire—ab, bc, cd, and da—form a closed loop that carries a current I = 5.30 A in the direction shown. A uniform magnetic field of magnitude B = 0.019 T is in the positive y direction. Determine the magnetic force on each segment.
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In The Figure Below The Ideal Batteries Have Emfs 1 9 0 V 2 6 0 V And The Resist
/in Uncategorized /by developerIn the figure below, the ideal batteries have emfs 1 = 9.0 V, 2 = 6.0 V, and the resistors have resistances R1 = 4.0 and R2 = 3.0 (d) What is the energy transfer rate in battery 1? (Enter a negative value if energy is being absorbed.).
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In The Figure Below The Money Demand Curve Would Move From Money Demandi To Mone
/in Uncategorized /by developerIf the Fed raises the interest rate, this will ________ inflation and ________ real GDP in the short run.
A. increase; lower
B. reduce; lower
C. increase; raise
D. reduce; raise
In the figure below, the money demand curve would move from Money demandi to Money demand2 ifInterestrate,MoneyMoneydemandzdemand,0Quantity of money, M(billions of dollars)O the Federal Reserve sold Treasury securities.O the price level decreased.O real GDP increased.O the interest rate increased.
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In The Figure Below Two Blocks Of Mass M1 350 G And M2 710 G Are Connected By A
/in Uncategorized /by developerIn the figure below, two blocks, of mass m1 = 350 g and m2 = 710 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 500 g and radius R = 12.0 cm. The disk can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest.
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In The Figure Below We Must Apply A Force Of Magnitude 60 N To Hold The Block St
/in Uncategorized /by developerIn the figure below, we must apply a force of magnitude 60 N to hold the block stationary at x = -2.0 cm. From that position we then slowly move the block so that our force does +4.6 J of work on the spring-block system; the block is then again stationary. What is the block’s position (x)? (There are two answers.)
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In The Figure C1 C5 8 4microf And C2 C3 C4 4 4microf The Applied Potential Is 24
/in Uncategorized /by developerIn the figure C1=C5 = 8.4MicroF and C2=C3=C4=4.4MicroF . The applied potential is =240V. Calculate the charge on each capacitor and the potential difference across each capacitor. The equivalent capacitance of the network between points a and b is 2.6×10−6 F.
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In The Figure To The Right You Are Given A Square Abcd Each Of Its Sides Is Divi 1
/in Uncategorized /by developerIn the figure to the right, you are given a square ABCD. Each of its sides is divided into two segments, such that AE = BF = CG = DH. Prove that quadrilateral EFGH is a square.
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