Which of the following will lead to the greatest linear acceleration? Decrease force F; Decrease mass m Increase force F; Increase mass m Decrease force F; Increase mass m Increase force F; Decrease mass m
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A: (a) A = 2×10-3 m (b) k = 44.88 m-1 (c) w = 44.88 rad/s (d) T = 0.14 s (e) f = 7.143…
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Q: R₁ =R₂ =9.00 R₁ =R=3.02 V = 15 V R₁ R₂ мими R₂ Ry wwww Calculate the power delivered to resistor 2.
A: For a series connectionFor a parallel connectionR1 and R2 are in seriesR3 and R4 are in series
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Q: Problem 4: Let's consider the following solution for simple harmonic motion: x(t) = 0.25 cos(0.8t).…
A: a(t) = -0.16cos(0.8t) amax = 0.16 m/s2.Explanation:Given data : The equation of…
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Q: Problem 2: A runaway train has a mass of 1.5 × 104 kg and a speed of 5 m/s. How much time does it…
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Q: Homework 6 Problem 6: A rigid tank of volume V = 0.015 m3 contains carbon monoxide at a…
A: a. P≈9.697×105 Pab. ΔU≈1477.78 Jc. ΔS≈20.68 J/KExplanation:To solve this problem, we can use the…
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A: a. 0.303 s b. 1.212 m c. 2.9694 m/s d. 4.982 m/sExplanation:
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A: So the final answer is A∗B=9k^And angle between them θ=71.56oExplanation:
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A: To calculate the minimum uncertainty in position, we will use the uncertainty principle formula
Q: The slide generator in the figure below is in a uniform magnetic field of magnitude 0.0500 T. The…
A: The current in the generator is 136.36 A Explanation:Step 1:Step 2:Step 3:
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A: Power of lens is The object distance is Note:Find:The near point distance.
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A: The current in the loop at 0.00600s is 3.8×10−5AExplanation:Step 1:Diameter outside the loop is…
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A: The objective of the question is to find the angle through which the sphere will rotate before it…
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Q: an electron undergoes circular motion while immersed in a uniform magnetic field with field strength…
A: Magnetic Field(B) = 20T
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Q: How much force must the floor apply to hold up a 100kh man carrying a 25kg boy on his shoulders?
A: The force will be 1225 N.Explanation:Given:The mass of man is M = 100 kgThe mass of boy m = 25 kg…
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A: The objective of the question is to find the change in entropy (ΔS) of a monoatomic Van der Waals…
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A: Capacitors can store charge and potential energy So, the answer is letters e & g only.…
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A: The objective of this question is to find out the distance of the blackboard from the student's eyes…
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- In this problem you will measure the gravitational constant in a series of “observational experiments,” making use of Newton’s law of gravitation and second law of motion as well as Kepler’s third law of planetary motionPart (a) Newton measured the centripetal acceleration of the moon in its orbit around Earth by comparing the force Earth exerts on the moon with the force Earth exerts on an apple. He obtained a value of ac = 2.72×10-3 m/s2. If Newton had taken the mass of Earth to be ME = 6.01×1024 kg and the mean distance between the centers of Earth and the moon to be RME = 3.85×108 m, what value would he have obtained for the gravitational constant, in units of N⋅m2/kg2? Part (b) Since measuring the centripetal acceleration of an orbiting body is rather difficult, an alternative approach is to use the body’s rotational period instead. Enter an expression for the gravitational constant, in terms of the distance between Earth and the moon, RME, Earth’s mass,ME, and the moon’s…Newton's 2nd Law can be symbolized as EF = ma Let mass A = 100 kg Let mass B = 1 kg What is true about an object of large mass versus an object of small mass? The more massive object has more inertia. The objects have the same inertia. The more massive object has less inertia. The objects have the same weight near Earth's surface. The more massive object has a larger weight near Earth's surface. V If the same net force is applied to both then the larger mass has the larger acceleration. O If the same net force is applied to both then the objects will haye the same acceleration. O If the same net force is applied to both then the larger mass has the smaller acceleration.mc 1) A cart having mass mc is connected to a hanging mass mp as shown in the figure. When the cart is released from rest, it accelerates towards the pulley. (There is no friction on the table surface or in the pulley. The masses of pulley and the string are negligible. g=9,8 m/s2) For m.=0,25 kg and mp 20gr %D a) What would be the acceleration of the cart ? b) What would be the acceleration if an extra mass of 0.25 kg was placed on the cart?
- A sport car moves around a banked curve at just the right constant speed v so that no friction is needed to make turn. During the turn, the driver (mass m) feels as though she weighs x times her actual weight. Find the magnitude of the net force on the driver during the turn in terms of m,g and x. Fnet? b) Find the radius of the turn.Name Period circular Motion Worksheet bate 1 A cyclist turns a corner with a radius of 50m at a speed of 10m/s. a. What is the cyclist's acceleration? 22 m/s b. if the cyclist and cycle have a combined mass of 120kg, what is the force causing them to turn? 240 N 2 A 60 kg Gila monster on a merry-go-round is traveling in a circie with a radius of 3 mat a speed of 2m/s. a. what acceleration does the monster experience? 1.33 m/s b. What is the net force? How does this compare with the monster's weight? S0 N, 600 N 3. A515kg roller coaster is at the bottom of a loop with a radius of 10m. if the speed at the bottom of the loop is 20m/s, what is the force of the track pushing up on the vehicle at this point? 25,750 N 4. A 14000N car traveling at 25m/s rounds a curve of radius 200m. Find the following: a. The centripetal acceleration of the car. 3.125 m/s b. The force that maintains centripetal acceleration. 4375 N C. The minimum coefficient of static friction between the tires and road that…1) m, = 5 kg m, = 10 kg 0 = 30° Hx = 0.3 m, HK m, Two masses are connected via a tensile string over a massless, frictionless pulley. The system is released from rest. Calculate the speed of the blocks after 2 seconds.
- A cyclist travels round a circular track of radius 8.8 m at a constant speed of 7.6 m s-¹. a) Calculate the acceleration of the cyclist and state what direction the acceleration acts in. b) Calculate the resultant force on the cycle and the rider if they have a combined mass of 102 kg.CENTRIPETAL FORCE PROBLEMS PH 421 42 Suppose the coefficient of static friction between the road and the tires on a car is 0.60 and the car has no negative lift. What speed will put the car on the verge of sliding as it rounds a level curve of 30.5 m radius?Current Attempt in Progress Miniature black holes. Left over from the big-bang beginning of the universe, tiny black holes might still wander through the universe. If one with a mass of 3 x 1011 kg (and a radius of only 2 x 10 16 m) reached Earth, at what distance from your head would its gravitational pull on you match that of Earth's? Assume free-fall acceleration a,- 9.83 m/s². Number Units
- An object sits at rest on a ramp. As the angle of inclination of the ramp increases, the object suddenly begins to slide. Which of the following explanations best accounts for the object's movement? (K:1) Select one: a. The force of gravity acting on the object has increased sufficiently O b. The friction has decreased sufficiently while the normal force has remained unchanged. O C. The coefficient of static friction has decreased sufficiently O d. The component of gravity along the ramp has increased sufficientlyRemaining Time: 57 minutes, 50 seconds. Question Completion Status: A Moving to another question will save this response. Question 5 A race track has radius of 525 m and banked at angle 12,5°. What is the minimum speed in (m/s) without slipping to round the track? Neglect friction force. A Moving to another question will save this response. & 23 8 4 W E T Y を) K D F NIMA CS しの WつCompute and identify the nearest value of force acting on a vehicle that travels around a bend of radius 200 m using the following data: Mass of vehicle = 2 ton, Velocity = 36 km/h. a. 704 N b. 802 N c. 1000 N d. 1200 N Clear my choice