A 6.0 Kg Box Moving at 3.0 M/s

Physics Latifah 5 months. Q8 A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 75 Ncm Use the workenergy theorem to find the maximum compression of the spring.

Solved A 6 0 Kg Box Moving At 3 0 M S On A Horizontal Frictionless Surface Runs Into A Light Spring Of Force Constant 75 N Cm Use The Work Energy Theorem To Find The Maximum Compression Of

Use the workenergy theorem to find the maximum compression of the spring.

. Use the work-energy theorem to find the maximum compression of the spring. 95 cm 65 cm 75 cm 85 cm Correct Answer. A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 75 Ncm.

Homework Equations WtotalK2-K1 k112mv227 J The Attempt at a Solution. Express your answer using two significant figures. View the full answer Previous question Next question.

A 60-kg box moving at 30 ms on a horizontal friction-less surface runs into a light spring of force constant 75 Ncm. A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 75 Ncm. A 60 kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 75Ncm.

A 60-kg box moving at 30 ms on a horizontal friction-less surface runs into a light spring of force constant 75 Ncm. Express your answer using two significant figures. A 60-kg box moving at 30 ms on a horizontal 1 answer below A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 75 Ncm.

Expert Answer 100 5 ratings given that m 6 kg u 3. A force of 350 N is required to start a 60-kg box moving across a horizontal concrete floor. M mass of the box 3 kg weight of the box mg 3 x 98 294 N normal force acting on the box by the floor.

Question A 60kg object moving at 20ms encounters a -40 N resistive force over a duration of. F force required to start the box moving 360 N. Use the work-energy theorem to find the maximum compression of the spring.

Normal force acting on the box by the floor is given as 294 Static frictional force F 360 N Coefficient of static friction. Use the work-energy theorem to find the maximum compression of the spring. The force applied would now be the sum of the frictional force and force due to acceleration.

85 cm Q9 How many joules of energy does a 100-watt light bulb use per hour. 35 N us 6 kg 981 ms2 us 0595. Students also viewed these Mechanics questions.

A16 and 09 ms B09 and 31 ms C16 and 31 ms D10 and 31 ms 21 Hint. 22A 0140 kg baseball is thrown with a velocity of 423 ms. If the dimensions of the ship are those of a rectangular box 300 meters long 80 meters wide and 40.

It is struck with an average force of 50000 N which results in a velocity of 370 ms in the opposite direction. Expert Answer Mass of the box m 6 kg Speed of the box V 3 ms Force constant of th. AUse the work-energy theorem to find the maximum compression of the spring.

A 60 k g box moving at 30 m s on a horizontal frictionless surface runs into one end of a light horizontal spring of force constant 75 N c m that is fixed at the other end. Homework Equations K12mv2 The Attempt at a Solution K127062 126N 126N50Ncm 252cm That is apparently incorrect. F us Fn.

Mass of box m 60 kg Spring constant of spring k 75 Ncm 75 100 Nm 7500 Nm Initial velocity of the box u 30 ms Final velocity at maximum compression v 0 ms Let the maximum compression be x. Question A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 50 Ncm. Use the work-energy theorem to find the maximum compression of the.

F uk Fn m a. A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 50 Ncm. A 60-kg object moving 20 ms in the positive x direction has a one-dimensional elastic collision with a 40-kg object moving 30 ms in the opposite direction.

Find step-by-step Physics solutions and your answer to the following textbook question. Use the work energy theorem to find the maximum compression of the spring. Use the principle of conservation of momentum along x- and y-directions.

Use the work energy theorem to find the maximum compression of the spring. A mass m is attached to a spring of force constant 75 A mass m is attached to a spring of force constant 75 N m and allowed to oscillate. Static frictional force is given as.

A 70kg box moving at 60ms on a horizontal frictionless surface runs into a light spring of force constant 50Ncm. Where uk coeff of kinetic friction. Use the work-energy theorem to find the maximum compression of the spring.

A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 50 Ncm. So only spring force is the force acting on the box spring system. A 030 kg ladle sliding on a horizontal frictionless surface is attached.

Rank the scale readings from greatest to least. What is the total kinetic energy of the two-mass system after the collision. Where F applied force 35 N us coeff of static friction Fn normal force weight.

Get my full lesson library ad-free when you become a member. A What is the coefficient of static friction between the box. What is the maximum compression of the spring.

A 60-kg box moving at 30 ms on a horizontal frictionless surface runs into a light spring of force constant 85 Ncm. Answer View Answer Discussion You must be signed in to discuss. AUse the work-energy theorem to find the maximum compression of the spring.

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