34 the diagram below shows a 4.0 kilogram object accelerating at 10 meters

magnitude of the car's average acceleration in this 4.0-second interval is (1) 0.40 m/s2 (3) 10. m/s2 ... speed of 4.0 meters per second in a horizontal circle having ... 36.The diagram below shows a 4.0-kilogram cart moving to the right and a 6.0-kilogram cart moving to the left on a horizontal frictionless meter per second. If the speed of the cart is doubled, the inertia of the cart is 6. 7. 8. When the index card is quickly pulled away from the glass in a horizontal direction, the disk falls straight down into the glass. This action is a result of the disk's A) inertia C) shape B) charge D) ...

Dan Fullerton · 2011 · ‎Physics4.24 Q: The diagram below shows a 4.0-kilogram object accelerating at 10 meters per second2 on a rough horizontal surface. What is the magnitude of the ...

The diagram below shows a 4.0 kilogram object accelerating at 10 meters

The diagram below shows a 4.0 kilogram object accelerating at 10 meters. 3. The diagram below shows a horizontal 12-newton force being applied to two blocks, A and B, initially at rest on a horizontal, frictionless surface. Block A has a mass of 1.0 kilogram and block B has a mass of 2.0 kilograms. A)5.0 NB)10. NC)20. ND)40. N 19.The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A)downward with decreasing speed B)downward at constant speed C)upward with decreasing speed D)upward with constant acceleration A)5.0 NB)10. NC)20. ND)40. N 30.The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A)A B)B C)C D)D 31.The diagram below represents a block sliding down an incline. Which vector best represents the frictional force

The diagram below shows a 4.0 kilogram object accelerating at 10 meters. (1) 6.0 kg (3) 10. kg (2) 2.0 kg (4) 12 kg 13 A 1.5-kilogram lab cart is accelerated uniformly from rest to a speed of 2.0 meters per second in 0.50 second. What is the magnitude of the force producing this acceleration? (1) 0.70 N (3) 3.0 N (2) 1.5 N (4) 6.0 N 14 The diagram below represents the magnetic field near point P. Question 9. SURVEY. 60 seconds. Q. The diagram below shows a compressed spring between two carts initially at rest on a horizontal, frictionless surface. Cart A has a mass of 2 kilograms and cart B has a mass of 1 kilogram. A string holds the carts together. The string is cut and the carts move apart. that is 10 meters long in 2 seconds. The acceleration of the object is approximately A) 12 m/s B) 27 m/s ... 4.0 kg 28.An object traveling at 4.0 meters per second has a momentum of 16 kilogram-meters per second. What is ... 4.0 m/s2 41.The diagram below shows a horizontal 12-newton force being applied to two blocks, A and B, initially at rest ... 1. The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A. 5.0N B. 10.N C. 20.N D. 40.N 2. What is the magnitude of the force needed to keep a 60.-newton rubber block moving across level,

231. The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. Acceleration = 10. m/s2 N Frictional force = Ff m = 4.0 kg (Not drawn to scale) Applied force = 50. What is the magnitude of the frictional force Facting on the object? A) 5.0N C) 20. N D) 40. N 232. Miriam A. Lazar, ‎Albert Tarendash · 2021 · ‎Study AidsThe diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. (1) 5.0 N (2) 10. N (3) 20. N (4) 40. 5A net force of 10. newtons accelerates an object at 5.0 meters per second2. What net force would ... 7A 1,200-kilogram car traveling at 10. meters per second hits a tree and is brought to rest in 0.10 second. What is the magnitude of the aver- ... 15 Hz (4) 4.0 Hz 28 The diagram below shows a periodic wave. A)5.0 NB)10. NC)20. ND)40. N 4.The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A)is greater than the force of static friction B)is less than the force of static friction C)increases as the speed of the ...

8.A 2.0-kilogram mass weighs 10. Newtons on planet X. The acceleration due to gravity on planet X is approximately Base your answers to questions 9 and 10 on the diagram below which represents a 4.0 102-kilogram satellite, S, in a circular orbit at an altitude of 5.0 106 meters. The orbital speed of the satellite is 6.0 103 20 The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second' on a rough horizontal surface. Acceleration = 10. m/s2 – Frictional force = Ft Applied force = 50. N m= 4.0 kg (Not drawn to scale) What is the magnitude of the frictional force Ff acting on the object? (1) 5.0N (2) 10. N (3) 20. N (4) 40. N The diagram below shows an 8.0-kilogram cart moving to the right at 4.0 meters per second about to make a head-on collision with a 4.0-kilogram cart moving to the left at 6.0 meters per second. After the collision, the 4.0-kilogram cart moves to the right at 3.0 meters per second. The diagram below shows two forces applied to a 2.0-kilogram block on a frictionless, horizontal surface. F = 8.0 N 2.0 kg F2 = 3.0 N Frictionless Surface What is the acceleration of the block? A 4.0 m/s2 to the left B.O 2.5 m/s2 to the right C.O 2.5 m/s2 to the left D. 1.5 m/s2 to the right

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The diagram below shows an 8.0-kilogram cart ... 40. A 4.0-kilogram object is accelerated at 3.0 meters per second2 north by an unbalanced force. The same unbalanced force acting on a 2.0-kilogram object will accelerate this object toward the north at A. 12m/s2 B. 6.0m/s2 C. 3.0m/s2 D. 1.5m/s2 41. An electron is located in an electric eld of

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Answers: 3 on a question: The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second on a rough horizontal surface. Acceleration = 10. m/s2 Frictional force = F1 Applied force = 50. N. m = 4.0 kg (Not drawn to scale) What is the magnitude of the frictional force F, ...

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Dan Fullerton · 2011 · ‎Physics3.24 Q: The diagram below shows a 4.0-kilogram object accelerating at 10 meters per second2 on a rough horizontal surface. What is the magnitude of the ...

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A net force of 5.0 x 10^2 newtons causes an object to accelerate at a rate of 5.0 meters per second^2. What is the mass of the object? a) 6.0 x 10^2 kg b) 2.0 x 10^-1 kg c) 2.5 x 10^3 kg d) 1.0 x 10^2 kg

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A 1200-kilogram space vehicle travels at 4.8 meters per second along the level surface of Mars. If the magnitude of the gravitational field strength on the surface of Mars is 3.7 newtons per kilogram, the magnitude of the normal force acting on the vehicle is ... 10. The diagram below shows an object moving counterclockwise around a horizontal ...

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6 Jul 2021 — meters per second? on rough horizontal surface_- Acceleration 10_ m/s2 Frictional force = F; Applied force = 50. E N m=4.0kg (Not drawn to scale) ...4 answers · Top answer: for this problem on the topic of conservation of energy, we're showing a block sliding ...

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37.A 5.0-kilogram sphere, starting from rest, falls freely 22 meters in 3.0 seconds near the surface of a planet. Compared to the acceleration due to gravity near Earth's surface, the acceleration due to gravity near the surface of the planet is approximately A) 3.19 s B) 5.10 s C) 10.2 s D) 12.5 s 38.As shown in the diagram below, a student ...

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Transcribed Image Text. 20 The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second on a rough horizontal surface. Acceleration = 10. m/s2 Frictional force F Applied force =50. N m = 4.0 kg (Not drawn to scale) What is the magnitude of the frictional force F acting on the object? (1) 5.0 N (2) 10. N (3) 20. N (4) 40.

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diagram below which represents a 5.0-kilogram object revolving around a circular track in a horizontal plane at a constant speed. The radius of the track is 20. meters and the centripetal force on the object is 4.0 × 102 Newtons. 5. The object's centripetal acceleration is (A) 0.012 m/s² (C) 1.0 × 102 m/s2 (B) 80. m/s² (D) 20. m/s² 6.

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6. The diagram below shows a 4.0-kilogram object accelerating at 10 meters per second on a rough horizontal surface. Acceleration = 10. m/s2 Frictional force = F1 Applied force = 50. N m = 4.0 kg (Not drawn to scale) What is the magnitude of the frictional force Fracting on the object?

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105. The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. Acceleration = 10. m/s2 Frictional force = Ff m = 4.0 kg (Not drawn to scale) Applied force = 50. N 5ctO* What is the magnitude of the frictional force "acting on the object? A) 5.ON ) 10. N C) 20. N D) 40. N 106.

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The diagram below shows a 5.00-kilogram block at rest on a horizontal, frictionlšs table. 5.00-kg block Table Which diagram be-st represents the force exerted on the block by the table? 49.1 N Block 5.00 kg Block Block 5 OO N Block D) 49.1 kg Two concutTent forces have a maximum resultant of 45 newtons and a minimum resultant of 5 newtons.

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43. The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A. 5.0N B. 10.N C. 20.N D. 40.N 44. In the diagram below, scaled vectors represent the momentum of each of two masses, A and B, sliding toward each other on a

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the diagram below which shows a 1-kilogram mass and a 2-kilogram mass being dropped from a building 100 meters high. Halfway down, the acceleration is (1)greater for the 1-kilogram mass (2)greater for the 2-kilogram mass (3)the same for both masses 22. Above a flat horizontal plane, an arrow,A, is shot horizontally from a bow at a speed of 50

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in this solution, we have to find the value of frictional force An Exhibition of Block Off Mosque 10 Kg. So first of all I am growing the dialogue for execution. So we have you in here block of martin K. G. And it is connected with this spring through a pulley and there is another block connected ...

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Correct answer to the question The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second on a rough horizontal surface. Acceleration = 10. m/s2 Frictional force = F1 Applied force = 50. N. m = 4.0 kg (Not drawn to - hmwhelper.com

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The diagram above shows a 4.0-kilogram object accelerating at 10 meters per second^2 on a rough horizontal surface. The applied force is 50N to the right. What is the force of friction acting on the block? 10. Which object has the greatest inertia? a 2O.O-kg mass moving at 1.00 m/s.

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12.The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A)downward with decreasing speed B)downward at constant speed C)upward with decreasing speed D)upward with constant acceleration 13.In the diagram below ...

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24. The diagram below shows an 8.0-kilogram cart moving to the right at 4.0 meters per second about to make a head-on collision with a 4.0-kilogram cart moving to the left at 6.0 meters per second. After the collision, the 4.0-kilogram cart moves to the right at 3.0 meters per second. What is the velocity of the 8.0-kilogram cart after the ...

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22. The diagram shows a 5.0 kilogram cart traveling clockwise in a horizontal circle of radius 2.0 meters at a constant speed of 4.0 meters/second. At the position shown, the centripetal acceleration of the cart is directed toward point 1. P 3. R 2. Q 4. S No Explanation Available. 1 23.

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40.In the diagram below, 400. joules of work is done raising a 72-newton weight a vertical distance of 5.0 meters. How much work is done to overcome friction as the weight is raised? A) 0 J B)8 J C) 45 J D) 90. J 41.The diagram below shows a 5.0-kilogram mass sliding 9.0 meters down an incline from a height of 2.0 meters in 3.0 seconds.

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38 The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second 2 on a rough horizontal surface. What is the magnitude of the frictional force F f acting on the object? (1) 5.0 N

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If the elevator rises with an acceleration of 9.8 meters per second 2, the force exerted by the elevator on the man will be 1600 N 4. When an unbalanced force of 10. Newtons is applied to an object whose mass is 4.0 kilograms, the acceleration of the object will be 2.5 m/s 2 5. A 1-kilogram object rests on a horizontal table top.

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The diagram below shows a 4.0-kilogram object accelerating at 10. m/s/s on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A. 5.0 N B. 10. N C. 20. N D. 40. N

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A)5.0 NB)10. NC)20. ND)40. N 30.The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A)A B)B C)C D)D 31.The diagram below represents a block sliding down an incline. Which vector best represents the frictional force

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A)5.0 NB)10. NC)20. ND)40. N 19.The diagram below shows a 4.0-kilogram object accelerating at 10. meters per second2 on a rough horizontal surface. What is the magnitude of the frictional force Ff acting on the object? A)downward with decreasing speed B)downward at constant speed C)upward with decreasing speed D)upward with constant acceleration