A woman fires a rifle with barrel length of 0.5400 m. Let (0, 0) be where the 125 g bullet begins to move, and the bullet travels in the xdirection. The force exerted by the expandinggas on the bullet is (16,000 10,000x- 24,000x) N, where x is in meters.(a) Caloulate the work done (in ki) by the gas on the bullet as the bullet travels the length of the barrel. (Enter your anower to at least two dedimal places.)(b) If the barrel is 1.100 m long, how much work (in ki) is done? (Enter your answer to at least two decimal places.)(c) How does this value compare with the work calculated in part (a)?The work is greater by

Name: A woman fires a rifle with barrel length of 0.5400 m. Let (0, 0) be w
Uploaded: 2024-03-20T06:57:16.000Z
Channel: Bartleby
Description: A woman fires a rifle with barrel length of 0.5400 m. Let (0, 0) be where the 125 g bullet begins to move, and the bullet travels in the xdirection. The force exerted by the expandinggas on the bullet is (16,000 10,000x- 24,000x) N, where x is in me

Given:- F = (16,000 + 10,000x - 24,000x2) N A woman fires a rifle with barrel length of 0.5400 m…

Science

Physics

1 the bullet travels in the rdredion. The force exe gas on the buet is (1600 10,00-2400)N where s in wo saiog png E g (o a) w coS lu g yam Pay r aang (a) Caloulate the work done (in k) by the gas on the bulet a the bulet tves the length of the barret (ter your anwer to at least two decmal places) () the barrel is0 kong how much work (in )is d (ter your an toat least two decimal plac) (0 How does this value compare with the work caloulated in part (a) The work is greater by

1 the bullet travels in the rdredion. The force exe gas on the buet is (1600 10,00-2400)N where s in wo saiog png E g (o a) w coS lu g yam Pay r aang (a) Caloulate the work done (in k) by the gas on the bulet a the bulet tves the length of the barret (ter your anwer to at least two decmal places) () the barrel is0 kong how much work (in )is d (ter your an toat least two decimal plac) (0 How does this value compare with the work caloulated in part (a) The work is greater by

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

Fuel cell systems are regarded as a promising solution for future electrical energy generation onboard of commercial aircraft. The Hydrogen gas supplied to the fuel cell is normally stored athigh pressures or cryogenically. The following gas cylinder in figure Qu 7 is used and is to belocated in the cargo hold of the aircraft.Figure Qu 7The rigid container holds 0.9 kg of hydrogen gas initially at 15bar and 20oC. As the altitude of theaircraft increases and economical cruising speed is achieved the cargo temperature, and the cylindertemperature, drops to 0oC. Determine the final hydrogen pressure at the new altitude and heat lostduring the ascent.For Hydrogen, R = 4.126 kJ/kgK, cv = 10.16 kJ/kgK
An ideal gas with energy E =NkgT moves quasi-statically (i.e. reversibly) from state A to state C as shown in the figure. What is the change in the energy of the gas (in J) as it moves from state A to state B? В A 2 Volume (m3) 4 Pressure (Pa) 2.
Plz solve A b c , vll definitely upvote, handwritten or typed ... Thnku
The temperature of 10 moles of an ideal gas is 1000 K. Compute the work done by the gas when it expands isothermally to three times its initial volume. Given: Boltzmann constant: k = 1.38 x 10–23 J/K, Ideal Gas Constant: R = 8.31 J/(mol K) A. 91300 J B. 9130 J C. 913 J D. 91 J E. 9 J
Which of the following is the Carnot Efficiency A)Work Output / Work Input B) (Thot – Tcold) / Thot C) Thot / Tcold D) work input/work output
- What is the work done on the gas as it expands from ressure P₁ and volume V₁ to pressure P2 and volume V2 long the indicated straight line? a. (P₁-P2) (V₁-V₂)/2 c. (P₁ + P2)(V₁-V2)/2 b. (P₁+P2) (V₁-V2) d. (P₁ P2)(V1 + V2) P₂ P₁ V₁ V₂ 2 V
A Get Unemployment Assistance X b Answered: MasteringPhysics: H X P Course Home MasteringPhysics: HW5 Adapti x MasteringPhysa session.masteringphysics.com/myct/itemView?assignmentProblemlID=135930887 Apps (1) aa a. YouTube to MP3 Co.. phone cover for mo... AGARWAL-PHY-166 KHW5 Adaptive Follow-Up Work and Kinetic Energy Two blocks of ice, one four times as heavy as the other, are at rest on a frozen lake. A person pushes each block the same distance d. Ignore friction and assume that an equal Part A force F is exerted on each block. Which of the following statements is true about the kinetic energy of the heavier block after the push? ► View Available Hint(s) It is smaller than the kinetic energy of the lighter block. It is equal to the kinetic energy of the lighter block. O It is larger than the kinetic energy of the lighter block. It cannot be determined without knowing the force and the mass of each block. Submit Part B Complete previous part(s) Part C Complete previous part(s)
A gas expands from 2.2 L to 3.6 L against a constant external pressure of 1.6 atm. What is the work done? A. -227 J B. 227 J C. 2.24 J D. -2.24 J
Pls explain it in terms of P and V also if possible and in detail im a little weak.
Example.3. A fan of di ameter 0.7m running at 1500r.p.m. delivers 140m /min of air at 15°C against 75mm of water of total pressure when its total efficiency is 86 percent. Determine the volume of air delivered, total pressure developed and horsepower consumed, if (a) the air temperature is 50°c, (b) the air temperature is 50°C and the fan speed is increased to 1700 r.p.m (c) the conditions are same as in (b) but a 0.6m di ameter, geometrically similar fan is used.
91. ssm The pressure and volume of a gas are changed along the path ABCA. Using the data shown in the graph, determine the work done (in- cluding the algebraic sign) in each segment of the path: (a) A to B, (b) B to C, and (c) C to A. 7.0 x 105 3.0 x 105 2.0 x 10-3 5.0 x 10-3 Volume, m3 Pressure, Pa
The atomic and molecular Vrms speeds of gases, vrms, are usually quite large, even at low temperatures. What is vrms, in meters per second, for helium atoms at 5.85 K (which is close to the point of liquefaction)?