1 12. 13. Two forces F₁ = (2500 N, 62.0°) and F₂= (1800, 150°) act on a stationary mass. What force F, (mag. & dir.) would be needed to keep the mass from moving? Three forces F₁ = (800. N, 125°) F₂ = (550 N, 225°) F3 = (1200, -25.0°) act on stationary mass. What equilibrant force is required? A 425 kg sign is suspended from the end of a massless strut as shown. What is the tension in the cable holding up the strut up? m= 425 kg A 220 kg sign is suspended form the end of a massless strut 1.50 m long. A cable running from the end of the strut to a point 2.25 m above the strut supports the strut and sign. What is the tension in the cable? 2.25m T 1.50m 8 m = 35.0° 220 kg A supertanker is being towed by two tugboats as a shown. The tensions in the towing cables T₁ and T₂ are each 1.6x10³ N and are directed at equal angles of 30.0° with respect to the tanker axis. If the tanker moves with a constant veloci of 2.00 m/s (i.e. no acceleration), what is the drag of the water on the supertanker's hull?
1 12. 13. Two forces F₁ = (2500 N, 62.0°) and F₂= (1800, 150°) act on a stationary mass. What force F, (mag. & dir.) would be needed to keep the mass from moving? Three forces F₁ = (800. N, 125°) F₂ = (550 N, 225°) F3 = (1200, -25.0°) act on stationary mass. What equilibrant force is required? A 425 kg sign is suspended from the end of a massless strut as shown. What is the tension in the cable holding up the strut up? m= 425 kg A 220 kg sign is suspended form the end of a massless strut 1.50 m long. A cable running from the end of the strut to a point 2.25 m above the strut supports the strut and sign. What is the tension in the cable? 2.25m T 1.50m 8 m = 35.0° 220 kg A supertanker is being towed by two tugboats as a shown. The tensions in the towing cables T₁ and T₂ are each 1.6x10³ N and are directed at equal angles of 30.0° with respect to the tanker axis. If the tanker moves with a constant veloci of 2.00 m/s (i.e. no acceleration), what is the drag of the water on the supertanker's hull?
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter5: Displacement And Force In Two Dimensions
Section: Chapter Questions
Problem 82A
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![12.
13.
5.1
Two forces F₁ = (2500 N, 62.0°) and F₂ = (1800, 150°) act on a stationary mass.
What force F3 (mag. & dir.) would be needed to keep the mass from moving?
Three forces F₁ = (800. N, 125°) F₂ = (550 N, 225°) F3 (1200, -25.0°) act on
stationary mass. What equilibrant force is required?
A 425 kg sign is suspended from the end of a massless strut as shown. What is
the tension in the cable holding up the strut up?
T
m = 425 kg
A 220 kg sign is suspended form the end of a massless strut 1.50 m long. A cable
running from the end of the strut to a point 2.25 m above the strut supports the
strut and sign. What is the tension in the cable?
olog
2.25m T
35.0°
1.50m 8
m = 220 kg
A supertanker is being towed by two tugboats as a shown. The tensions in the
towing cables T₁ and T₂ are each 1.6x105 N and are directed at equal angles of
30.0° with respect to the tanker axis. If the tanker moves with a constant velocit
of 2.00 m/s (i.e. no acceleration), what is the drag of the water on the
supertanker's hull?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F13208dfc-6768-4a76-8aab-4a6fbb561297%2F79ff0842-3bd2-4a27-8d5e-d2fdcacfe8bd%2Fljfu10j_processed.jpeg&w=3840&q=75)
Transcribed Image Text:12.
13.
5.1
Two forces F₁ = (2500 N, 62.0°) and F₂ = (1800, 150°) act on a stationary mass.
What force F3 (mag. & dir.) would be needed to keep the mass from moving?
Three forces F₁ = (800. N, 125°) F₂ = (550 N, 225°) F3 (1200, -25.0°) act on
stationary mass. What equilibrant force is required?
A 425 kg sign is suspended from the end of a massless strut as shown. What is
the tension in the cable holding up the strut up?
T
m = 425 kg
A 220 kg sign is suspended form the end of a massless strut 1.50 m long. A cable
running from the end of the strut to a point 2.25 m above the strut supports the
strut and sign. What is the tension in the cable?
olog
2.25m T
35.0°
1.50m 8
m = 220 kg
A supertanker is being towed by two tugboats as a shown. The tensions in the
towing cables T₁ and T₂ are each 1.6x105 N and are directed at equal angles of
30.0° with respect to the tanker axis. If the tanker moves with a constant velocit
of 2.00 m/s (i.e. no acceleration), what is the drag of the water on the
supertanker's hull?
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