16. DETAILS MY NOTES ASK YOUR TEACHER The formation of helium nucleus, from the fusion process of two deuterium nuclei is shown as below: ?H + H - He + " n + energy 1 The binding energies per nucleon from fusion process in Equation above for H and He are 1.09 MeV and 2.54 MeV, respectively. Calculate the energy released in this reaction. O 5.44 MeV О 3.26 МeV

16. DETAILS MY NOTES ASK YOUR TEACHER The formation of helium nucleus, from the fusion process of two deuterium nuclei is shown as below: ?H + H - He + " n + energy 1 The binding energies per nucleon from fusion process in Equation above for H and He are 1.09 MeV and 2.54 MeV, respectively. Calculate the energy released in this reaction. O 5.44 MeV О 3.26 МeV

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter1: Temperature And Heat

Section: Chapter Questions

Problem 129CP: Let's stop ignoring the greenhouse effect and incorporate it into the previous problem in a very...

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II. Power A. Sample Problems: 1 W-500 Joules t=25 seconds P=? 1 P=25 watts W-5000 Joules t=? 1 P=170 watts t=20 seconds W = ? bons Formula: Substitution: Answer with unit of measure: Formula: Substitution: Answer with unit of measure: Formula: Substitution: Answer with unit of measure: how I msidor siqma2 A 21519m 02-b W 1 If a man moves a large box that weighs 10 Newtons 20 meters in 30 seconds, how much power was used?
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P1B.7 Calculate the escape velocity (the minimum initial velocity that will take an object to in nity) from the surface of a planet of radius R. What is the value for (i) the Earth, R = 6.37 × 106 m, g = 9.81 m s−2, (ii) Mars, R = 3.38 ×106 m, mMars/mEarth = 0.108. At what temperatures do H2, He, and O2 molecules have mean speeds equal to their escape speeds? What proportion of the molecules have enough speed to escape when the temperature is (i) 240 K, (ii) 1500 K? Calculations of this kind are very important in considering the composition of planetary atmospheres.
a. Explain and solve the equation that explains the temperature deviation of a spherical gas cloud in mutual magnetism of its molecules and subject to the laws of thermodynamics.
Kinetic energy of electron gas. Show that the kinetic energy of a three-dimensional gas of N free electrons at 0 K is U, = N€p .
Q1: Calculate the drift current density in silicon sample. If T-300 K, Na-1021/m³, Na-1020/m³V, H-0.85m²/V.S, Mp=0.04m²/V.s, E=35 V/cm.. (Ans: 6.8×10 A/m²).
ocument/d/1KskP4qlP15SLP5EQSJVQCgdNKbNeBzlgiCwY_ihSz-g/edit SOAP2DAY IPS Stresser | IP Stres... O Canvas w Whitepages - Offi.. CheckUsernames... Configure your Xb.. OctoSniff 3.O COM Request edit access 2. With a mass of 114 kg, Baby Bird is the smallest monoplane ever flown. Suppose the Baby Bird and pilot are coasting along the runway when the pilot jumps horizontally to the runway behind the plane. The pilot's ve locity upon leaving the plane is 5.32 m/s backward. After the pilot jumps from the plane, the plane coasts forward with a speed of 3.40 m/s. If the pilot's mass equals 60.0 kg, what is the velocity of the plane and pilot before the pilot jumps? 3. The September 14, 1987, issue of the New York Times had a mass of 5.4 kg. Suppose a skateboarder picks up a copy of this issue to have a look at the comic pages while rolling backward on the skateboard. Upon realizing that the New York Times doesn't have a "funnies" section, the skateboarder promptly throws the entire issue in a…
s Checkout Gradebook 9 physics (1).pdf G atrial fibrillation - Goo x W PHY 206 HW Bonus- C Find The X- And Y-com x G how to use arctan on t i webassign.net/web/Student/Assignment-Responses/tutorial?dep=25444823&tags=autosave#question4499918 12 ADDITIONAL PROBLEMS Question 5.1a: The figure shows a box of mass m = 5.15 kg pulled to the right across a horizontal surface by a constant tension force of magnitude T= 24.5 N. The tension force is inclined at an angle e = 23.0° above the horizontal and the friction force has magnitude f, = 13.5 N. The box is pulled a distance d = 1.65 m. Determine the work done on the box by the tension force, the normal force, and the kinetic friction force. We'll use W, Wa and W, to represent the magnitudes of the tension, normal, and friction forces, respectively. W = W. = Question 5.1b: The figure below shows a 1.70 x 10*-N car rolling down a ramp inclined at an angle of 0 = 34.5° above the horizon. The car rolls a distance of 14.0 m.
5. Farad II. Solve the following problem pertaining to heat transfer. It is recommended to go to the FAQ section near the last pages to have an example and be able to answer common questions. 1. Suppose a 12-gauge copper wire, which has twice the diameter of the common 18-gauge wire (1.02mm diameter). If the current remains the same, what effect would this have on the magnitude of the drift velocity (i) none– vd would be unchanged; (ii) vd would be twice as great; (iii) vd would be four times greater; (iv) vd would be half as great; (v) vd would be one-fourth as great. Vd. Use the formula | 1 = nqvgA