- 13.13-1: A 17-tooth spur pinion has a diametral pitch of 8 teeth/in, runs at...
- 13.13.1: A 17-tooth spur pinion has a diametral pitch of 8 teeth/in, runs at...
- 13.13-2: A 15-tooth spur pinion has a module of 3 mm and runs at a speed of ...
- 13.13.2: A 15-tooth spur pinion has a module of 3 mm and runs at a speed of ...
- 13.13-3: A spur gearset has a module of 6 mm and a velocity ratio of 4. The ...
- 13.13.3: A spur gearset has a module of 6 mm and a velocity ratio of 4. The ...
- 13.13-4: A 21-tooth spur pinion mates with a 28-tooth gear. The diametral pi...
- 13.13.4: A 21-tooth spur pinion mates with a 28-tooth gear. The diametral pi...
- 13.13-5: A 20 straight-tooth bevel pinion having 14 teeth and a diametral pi...
- 13.13.5: A 20 straight-tooth bevel pinion having 14 teeth and a diametral pi...
- 13.13-6: A parallel helical gearset uses a 20-tooth pinion driving a 36-toot...
- 13.13.6: A parallel helical gearset uses a 20-tooth pinion driving a 36-toot...
- 13.13-7: A parallel helical gearset consists of a 19-tooth pinion driving a ...
- 13.13.7: A parallel helical gearset consists of a 19-tooth pinion driving a ...
- 13.13-8: To avoid the problem of interference in a pair of spur gears using ...
- 13.13.8: To avoid the problem of interference in a pair of spur gears using ...
- 13.13-9: Repeat Prob. 138 with a 25 pressure angle.
- 13.13.9: Repeat Prob. 138 with a 25 pressure angle.
- 13.13-10: For a spur gearset with f 5 20, while avoiding interference, find:(...
- 13.13.10: For a spur gearset with f 5 20, while avoiding interference, find: ...
- 13.13-11: Repeat problem 1310 for a helical gearset with fn 5 20 and c 5 30.
- 13.13.11: Repeat problem 1310 for a helical gearset with fn 5 20 and c 5 30.
- 13.13-12: The decision has been made to use fn 5 20, Pt 5 6 teeth/in, and c 5...
- 13.13.12: The decision has been made to use fn 5 20, Pt 5 6 teeth/in, and c 5...
- 13.13-13: Repeat with c 5 45.
- 13.13.13: Repeat with c 5 45.
- 13.13-14: By employing a pressure angle larger than standard, it is possible ...
- 13.13.14: By employing a pressure angle larger than standard, it is possible ...
- 13.13-15: A parallel-shaft gearset consists of an 18-tooth helical pinion dri...
- 13.13.15: A parallel-shaft gearset consists of an 18-tooth helical pinion dri...
- 13.13-16: The double-reduction helical gearset shown in the figure is driven ...
- 13.13.16: The double-reduction helical gearset shown in the figure is driven ...
- 13.13-17: Shaft a in the figure rotates at 600 rev/min in the direction shown...
- 13.13.17: Shaft a in the figure rotates at 600 rev/min in the direction shown...
- 13.13-18: The mechanism train shown consists of an assortment of gears and pu...
- 13.13.18: The mechanism train shown consists of an assortment of gears and pu...
- 13.13-19: The figure shows a gear train consisting of a pair of helical gears...
- 13.13.19: The figure shows a gear train consisting of a pair of helical gears...
- 13.13-20: A compound reverted gear train is to be designed as a speed increas...
- 13.13.20: A compound reverted gear train is to be designed as a speed increas...
- 13.13-21: Repeat Prob. 1320 with a 25 pressure angle.
- 13.13.21: Repeat Prob. 1320 with a 25 pressure angle
- 13.13-22: Repeat Prob. 1320 for a gear ratio of exactly 30 to 1.
- 13.13.22: Repeat Prob. 1320 for a gear ratio of exactly 30 to 1
- 13.13-23: Repeat Prob. 1320 for a gear ratio of approximately 45 to 1.
- 13.13.23: Repeat Prob. 1320 for a gear ratio of approximately 45 to 1.
- 13.13-24: A gearbox is to be designed with a compound reverted gear train tha...
- 13.13.24: A gearbox is to be designed with a compound reverted gear train tha...
- 13.13-25: The tooth numbers for the automotive differential shown in the figu...
- 13.13.25: The tooth numbers for the automotive differential shown in the figu...
- 13.13-26: The figure illustrates an all-wheel drive concept using three diffe...
- 13.13.26: The figure illustrates an all-wheel drive concept using three diffe...
- 13.13-27: In the reverted planetary train illustrated, find the speed and dir...
- 13.13.27: In the reverted planetary train illustrated, find the speed and dir...
- 13.13-28: In the gear train of Prob. 1327, let gear 6 be driven at 85 rev/min...
- 13.13.28: In the gear train of Prob. 1327, let gear 6 be driven at 85 rev/min...
- 13.13-29: Tooth numbers for the gear train shown in the figure are N2 5 12, N...
- 13.13.29: Tooth numbers for the gear train shown in the figure are N2 5 12, N...
- 13.13-30: The tooth numbers for the gear train illustrated are N2 5 20, N3 5 ...
- 13.13.30: The tooth numbers for the gear train illustrated are N2 5 20, N3 5 ...
- 13.13-31: Shaft a in the figure has a power input of 75 kW at a speed of 1000...
- 13.13.31: Shaft a in the figure has a power input of 75 kW at a speed of 1000...
- 13.13-32: The 24T 6-pitch 20 pinion 2 shown in the figure rotates clockwise a...
- 13.13.32: The 24T 6-pitch 20 pinion 2 shown in the figure rotates clockwise a...
- 13.13-33: The gears shown in the figure have a module of 12 mm and a 20 press...
- 13.13.33: The gears shown in the figure have a module of 12 mm and a 20 press...
- 13.13-34: The figure shows a pair of shaft-mounted spur gears having a diamet...
- 13.13.34: The figure shows a pair of shaft-mounted spur gears having a diamet...
- 13.13-35: The figure shows the electric-motor frame dimensions for a 30-hp 90...
- 13.13.35: The figure shows the electric-motor frame dimensions for a 30-hp 90...
- 13.13-36: Continue Prob. 1324 by finding the following information, assuming ...
- 13.13.36: Continue Prob. 1324 by finding the following information, assuming ...
- 13.13-37: A speed-reducer gearbox containing a compound reverted gear train t...
- 13.13.37: A speed-reducer gearbox containing a compound reverted gear train t...
- 13.13-38: For the countershaft in Prob. 372, p. 152, assume the gear ratio fr...
- 13.13.38: For the countershaft in Prob. 372, p. 152, assume the gear ratio fr...
- 13.13-39: For the countershaft in Prob. 373, p. 152, assume the gear ratio fr...
- 13.13.39: For the countershaft in Prob. 373, p. 152, assume the gear ratio fr...
- 13.13-40: For the gear and sprocket assembly analyzed in Prob. 377, p. 153, i...
- 13.13.40: For the gear and sprocket assembly analyzed in Prob. 377, p. 153, i...
- 13.13-41: For the gear and sprocket assembly analyzed in Prob. 379, p. 153, i...
- 13.13.41: For the gear and sprocket assembly analyzed in Prob. 379, p. 153, i...
- 13.13-42: For the bevel gearset in Probs. 374 and 376, pp. 152 and 153 respec...
- 13.13.42: For the bevel gearset in Probs. 374 and 376, pp. 152 and 153 respec...
- 13.13-43: The figure shows a 16T 20 straight bevel pinion driving a 32T gear,...
- 13.13.43: The figure shows a 16T 20 straight bevel pinion driving a 32T gear,...
- 13.13-44: The figure shows a 10 diametral pitch 18-tooth 20 straight bevel pi...
- 13.13.44: The figure shows a 10 diametral pitch 18-tooth 20 straight bevel pi...
- 13.13-45: The gears shown in the figure have a normal diametral pitch of 5 te...
- 13.13.45: The gears shown in the figure have a normal diametral pitch of 5 te...
- 13.13-46: The gears shown in the figure have a normal diametral pitch of 5 te...
- 13.13.46: The gears shown in the figure have a normal diametral pitch of 5 te...
- 13.13-47: A gear train is composed of four helical gears with the three shaft...
- 13.13.47: A gear train is composed of four helical gears with the three shaft...
- 13.13-48: In the figure for Prob. 1334, pinion 2 is to be a right-hand helica...
- 13.13.48: In the figure for Prob. 1334, pinion 2 is to be a right-hand helica...
- 13.13-49: Gear 2, in the figure, has 16 teeth, a 20 transverse pressure angle...
- 13.13.49: Gear 2, in the figure, has 16 teeth, a 20 transverse pressure angle...
- 13.13-50: The figure shows a double-reduction helical gearset. Pinion 2 is th...
- 13.13.50: The figure shows a double-reduction helical gearset. Pinion 2 is th...
- 13.13-51: A right-hand single-tooth hardened-steel (hardness not specified) w...
- 13.13.51: A right-hand single-tooth hardened-steel (hardness not specified) w...
- 13.13-52: The hub diameter and projection for the gear of Prob. 1351 are 100 ...
- 13.13.52: The hub diameter and projection for the gear of Prob. 1351 are 100 ...
- 13.13-53: A 2-tooth left-hand worm transmits 34 hp at 600 rev/min to a 36-too...
- 13.13.53: A 2-tooth left-hand worm transmits 3 4 hp at 600 rev/min to a 36-to...
- 13.13-54: Write a computer program that will analyze a spur gear or helical-m...
- 13.13.54: Write a computer program that will analyze a spur gear or helical-m...

# Solutions for Chapter 13: GearsGeneral

## Full solutions for Mechanical Engineering Design | 10th Edition

ISBN: 9780073398204

Solutions for Chapter 13: GearsGeneral

Get Full SolutionsMechanical Engineering Design was written by Sieva Kozinsky and is associated to the ISBN: 9780073398204. This expansive textbook survival guide covers the following chapters and their solutions. This textbook survival guide was created for the textbook: Mechanical Engineering Design, edition: 10. Since 108 problems in chapter 13: GearsGeneral have been answered, more than 32735 students have viewed full step-by-step solutions from this chapter. Chapter 13: GearsGeneral includes 108 full step-by-step solutions.

I don't want to reset my password

Need help? Contact support

Having trouble accessing your account? Let us help you, contact support at +1(510) 944-1054 or support@studysoup.com

Forgot password? Reset it here