Physics Work,Power & Energy Level: High School
A force of magnitude 24 N makes an angle of 2250 with the positive x-axis , Find the x and y scalar components of the vector .Physics Work,Power & Energy Level: High School
Three vectors A , B , and C are such that A + B = C and /A/2 + /B/2 = /C/2 . Which of the following statement is correct ?A and B are parallel
A and B are equal in magnitude
None of listed
A is perpendicular to B
Physics Work,Power & Energy Level: High School
The volume of cylindrical tank is calculated by measuring its radius as 3 m with a maximum error of +1.5% and the height as 5 m with a maximum error of +1% .The volume of the tank is :Physics Work,Power & Energy Level: High School
A compressed spring that obeys Hooke's law has a potential energy of 18 j . If the spring constant of the spring is 4 N/cm , find the distance by which the spring is compressed .Physics Work,Power & Energy Level: High School
1 watt is the same as :1 kg m^2/s^2
1 N m
1 J s
1 kg m^2/s^3
Physics Work,Power & Energy Level: High School
A 70 kg cart is pushed for 50 m with a constant velocity upon a 45 degree frictionless incline . Find the work done on the cart . (Assume g = 10 m/s^2)Physics Work,Power & Energy Level: High School
A 200 g object is moving in a circle of radius 4 m with a uniform speed of 6 m/s . The net foce acting on the object is :Physics Work,Power & Energy Level: High School
A 0.4 kg ball is thrown vertically upward with a speed of 30 m/s . The ball reaches a height of 40.0 m . Assuming g = 10 m/s^2 , the energy dissipated to air fraction is :Physics Work,Power & Energy Level: High School
A 1.20 kg box slides down a rough incline plane from a height h of 1.75 m . The box had a speed of 2.33 m/s at the top and a speed of 1.90 m/s at the bottom . Calculate the mechanical energy lost due to friction (as heat , etc.).Physics Work,Power & Energy Level: High School
A 2400 kg block of granite is pulled up an incline that has an angle of inclination theta = 18 degree with a constant speed of 1.81 m/s by a steam which ( see the figure as shown in "click here"). The coefficient of the kinetic friction between the block and the incline is 0.08. How much power must be supplied by the winch ?Physics Work,Power & Energy Level: High School
A 0.50- kg block slides along a small track with elevated ends and a flat central part . The flat part has a length L = 1.26 m . The curved portion of the track are frictionless , but for the flat part the coefficient of the kinetic energy is 0.188 . The block is released from rest from a height h = 71 cm on the left curved portion of the track . Calculate the maximum height reached by the block on the right curved portion of the track .Physics Work,Power & Energy Level: High School
A small block of mass m = 1.3 kg slides , without friction , along the loop-the-loop track shown . The block starts from the point P a distance h = 53.0 m above the bottom of the loop of radius R = 20.0 m . What is the kinetic energy of the mass at the point A on the loop ? What is the downward acceleration of the mass at the point A of the loop?what is the minimum height h for which the block will reach point A on the loop without leaving the track?
Physics Work,Power & Energy Level: High School
The string in the Figure is L = 100.0 cm long and the distance d to the fixed peg P is 72.0 cm . when the ball is released from rest in the position shown , It will swing along the dashed arc . How fast will it be going when it reaches the highest point in its swing ? How fast will it be going when it reaches the lowest point in its swing ?Physics Work,Power & Energy Level: High School
A block of mass m = 6.7 kg is released from rest at a height of H = 3.0 on a curved frictionless ramp. At the foot of the ramp is a spring whose spring constant is k = 372.0 N/m. What is the maximum compression of the spring , x ? After the spring reaches its maximum compression , it pushes the block backwards . What is the maximum height reached by the block ?Physics Work,Power & Energy Level: High School
Water flows over a water fall which is 54.0 m high at an average rate of 1.10 E+6 kg/s . If all the potential energy of the water were converted into electric energy , how much electrical power could be produced by these falls ?