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(13%) Problem 6: Two large rectangular sheets of charge of side L 2.0 m are separated...
Please show all work !! (10%) Problem 9: A point charge Q-4.6 nC is located at...
Please show all work !!
(10%) Problem 9: A point charge Q-4.6 nC is located at the origin. A cylinder of radius R- 0.55 m is concentric with the z-axis with the top of the cylinder at height H1- 0.45 m above the origin and the bottom of the cylinder at height H2045 m below the origin. Refer to the figure. The y-axis points into the screen Z-axis X-axis Otheexpertta.com 20% Part (a) Calculate the electric flux passing out through...
please show all work and solve all parts! (7%) Problem 9: A point charge is b-5.5...
please show all work and solve
all parts!
(7%) Problem 9: A point charge is b-5.5 m above the center of a uniformly charged z-axis ring of radius a = 0.44 m sitting in the xy plane with charge Q Randomized Variables b-5.5 nm a = 0.44 m 8.5 pC (0.0,b) X-axi (a,0,0) Otheexpertta.com 33% Part (a) Calculate the z component of the electric field at P in newtons per coulomb Grade Summarv Deductions Potential 100% cosO asinO tanO (...
(13%) Problem 8: In open heart surgery, a small amount of energy is often used to...
(13%) Problem 8: In open heart surgery, a small amount of energy is often used to defibrillate the heart 50% Part (a) What voltage in kilovolts, is applied to the 9.25 μ-capacitor of a heart defibrillator that stores 37 J of energy? Grade Summary Deductions Potential 6% 94% 7 8 9 HOME sin cotan atan cosh coS asin acotan tanh) o Degrees o Radians tan acos sinh cotanh Submissions Attempts remaining: 4 (3% per attempt) detailed view END BACKSPA DEL...
Hello, Please answer the whole question! (all parts) (996) Problem 8: A young 34-kg ice hockey...
Hello,
Please answer the whole question! (all parts)
(996) Problem 8: A young 34-kg ice hockey goalie, originally at rest, catches a 0.145-kg hockey puck slapped at him at a speed of 33 m/s. In this problem, take the original direction of the puck as positive. 50% Part (a) Suppose the goalie and the ice puck have an elastic collision and the puck is reflected back in the direction from which it came. What would the final velocity of the...
(5%) Problem 6: The "lead" in pencils is a graphite composition with a Young's modulus of about 1.10 N/m. AL Calcul...
(5%) Problem 6: The "lead" in pencils is a graphite composition with a Young's modulus of about 1.10 N/m. AL Calculate how much shorter (in mm) the length of the lead becomes in an automatic pencil if you tap it straight into the pencil with a force of 3.2 N. The lead is 0.57 mm in diameter and 63 mm long. Grade Summary Deductions Potential 100 tan() ( 7 8 9 Submissions Attempts remaining: 10 cotano asino acos E M...
(17%) Problem 1: An object oscillates with an angular frequency o = 3 rad/s. At 1-0,...
(17%) Problem 1: An object oscillates with an angular frequency o = 3 rad/s. At 1-0, the object is at xo = 3.5 cm. It is moving with velocity vx0= 2 cm/s in the positive x-direction. The position of the object can be described through the equation x() = A cos(o1+). 33% Part (a) What is the the phase constant of the oscillation in radians? (Caution: If you are using the trig functions in the palette below, be careful to...
(5%) Problem 13: A camera with a 50.0 mm focal length lens is being used to...
(5%) Problem 13: A camera with a 50.0 mm focal length lens is being used to photograph a person standing 3.5 m away. * 50 % Part (a) How far, in centimeters, must the film be from the lens? d;= 3.5 * 10(-2) Grade Summary Deductions 0% Potential 100% v E HOME sin() cos( tan() cotan asin( acos atan acotan sinh cosh tanh() cotanh0 Degrees Radians ( 7 8 9 4 5 6 * 1 2 3 + - 0...
(13%) Problem 5: An object of height 2.9 cm is placed 29 cm in front of...
(13%) Problem 5: An object of height 2.9 cm is placed 29 cm in front of a diverging lens of focal length 17 cm. Behind the diverging lens, and 11 cm from it, there is a converging lens of the same focal length. - A 50% Part (a) Find the location of the final image, in centimeters beyond the converging lens. Grade Summary Deductions 0% Potential 100% 1 E sin( cos() tan() cotan() asin() acos atan acotan sinh cosh() |...
(25%) Problem 2: A vertical spring has a length of 0.15 m when a 0.175 kg...
(25%) Problem 2: A vertical spring has a length of 0.15 m when a 0.175 kg mass hangs from it, and a length of 0.775 m when a 2.1 kg mass hangs from it 50% Part (a) What is the force constant of the spring, in newtons per meter? 50% Part (b) What is the unloaded length of the spring, in centimeters? Grade Summary Lo Deductions 0% Potential 100% tan Submissions sin( cosO 7 8 9 НОМE л Attempts remaining:...
(25%) Problem 2: Consider a hydrogen atom with a proton at the center and an electron...
(25%) Problem 2: Consider a hydrogen atom with a proton at the center and an electron in the orbit. The proton and the electron are separated by 5.3 x 10-10 meters. The Proton has a charge of 1.6 x 10-19 C, and the electron has a charge of -1.6 x 10-19 C. Take Coulomb's constant k to be 9 x 109 N-m?/c2 tud Grad Dedu Potent sin cotan) asin) tan() | π acosO Subm Attem cosO 78 9 detail atan)...
Please show all work !!
(10%) Problem 9: A point charge Q-4.6 nC is located at the origin. A cylinder of radius R- 0.55 m is concentric with the z-axis with the top of the cylinder at height H1- 0.45 m above the origin and the bottom of the cylinder at height H2045 m below the origin. Refer to the figure. The y-axis points into the screen Z-axis X-axis Otheexpertta.com 20% Part (a) Calculate the electric flux passing out through...
please show all work and solve
all parts!
(7%) Problem 9: A point charge is b-5.5 m above the center of a uniformly charged z-axis ring of radius a = 0.44 m sitting in the xy plane with charge Q Randomized Variables b-5.5 nm a = 0.44 m 8.5 pC (0.0,b) X-axi (a,0,0) Otheexpertta.com 33% Part (a) Calculate the z component of the electric field at P in newtons per coulomb Grade Summarv Deductions Potential 100% cosO asinO tanO (...
(13%) Problem 8: In open heart surgery, a small amount of energy is often used to defibrillate the heart 50% Part (a) What voltage in kilovolts, is applied to the 9.25 μ-capacitor of a heart defibrillator that stores 37 J of energy? Grade Summary Deductions Potential 6% 94% 7 8 9 HOME sin cotan atan cosh coS asin acotan tanh) o Degrees o Radians tan acos sinh cotanh Submissions Attempts remaining: 4 (3% per attempt) detailed view END BACKSPA DEL...
Hello,
Please answer the whole question! (all parts)
(996) Problem 8: A young 34-kg ice hockey goalie, originally at rest, catches a 0.145-kg hockey puck slapped at him at a speed of 33 m/s. In this problem, take the original direction of the puck as positive. 50% Part (a) Suppose the goalie and the ice puck have an elastic collision and the puck is reflected back in the direction from which it came. What would the final velocity of the...
(5%) Problem 6: The "lead" in pencils is a graphite composition with a Young's modulus of about 1.10 N/m. AL Calculate how much shorter (in mm) the length of the lead becomes in an automatic pencil if you tap it straight into the pencil with a force of 3.2 N. The lead is 0.57 mm in diameter and 63 mm long. Grade Summary Deductions Potential 100 tan() ( 7 8 9 Submissions Attempts remaining: 10 cotano asino acos E M...
(17%) Problem 1: An object oscillates with an angular frequency o = 3 rad/s. At 1-0, the object is at xo = 3.5 cm. It is moving with velocity vx0= 2 cm/s in the positive x-direction. The position of the object can be described through the equation x() = A cos(o1+). 33% Part (a) What is the the phase constant of the oscillation in radians? (Caution: If you are using the trig functions in the palette below, be careful to...
(5%) Problem 13: A camera with a 50.0 mm focal length lens is being used to photograph a person standing 3.5 m away. * 50 % Part (a) How far, in centimeters, must the film be from the lens? d;= 3.5 * 10(-2) Grade Summary Deductions 0% Potential 100% v E HOME sin() cos( tan() cotan asin( acos atan acotan sinh cosh tanh() cotanh0 Degrees Radians ( 7 8 9 4 5 6 * 1 2 3 + - 0...
(13%) Problem 5: An object of height 2.9 cm is placed 29 cm in front of a diverging lens of focal length 17 cm. Behind the diverging lens, and 11 cm from it, there is a converging lens of the same focal length. - A 50% Part (a) Find the location of the final image, in centimeters beyond the converging lens. Grade Summary Deductions 0% Potential 100% 1 E sin( cos() tan() cotan() asin() acos atan acotan sinh cosh() |...
(25%) Problem 2: A vertical spring has a length of 0.15 m when a 0.175 kg mass hangs from it, and a length of 0.775 m when a 2.1 kg mass hangs from it 50% Part (a) What is the force constant of the spring, in newtons per meter? 50% Part (b) What is the unloaded length of the spring, in centimeters? Grade Summary Lo Deductions 0% Potential 100% tan Submissions sin( cosO 7 8 9 НОМE л Attempts remaining:...
(25%) Problem 2: Consider a hydrogen atom with a proton at the center and an electron in the orbit. The proton and the electron are separated by 5.3 x 10-10 meters. The Proton has a charge of 1.6 x 10-19 C, and the electron has a charge of -1.6 x 10-19 C. Take Coulomb's constant k to be 9 x 109 N-m?/c2 tud Grad Dedu Potent sin cotan) asin) tan() | π acosO Subm Attem cosO 78 9 detail atan)...
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