DEPARTMENT OF GENERAL STUDIES PHY– 101, (General Physics)
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DEPARTMENT OF GENERAL STUDIES YANBU INDUSTRIAL COLLEGE Semester I, 1435 – 1436 (H) / 2014 – 2015 (G) PHY– 101, (General Physics) Final Examination, Monday, 5/1/ 2015 Time Allowed: 2.5 Hours Student ID: ________________________ Max. Marks: 35 Please answer all questions in answer sheet. Question (1) (7 Marks) (a) Give two examples of derived quantities and write the SI unit for each one of them. (b) Write four equations of motion in one dimension with constant acceleration. (c) A shotputter throws the shot with an initial speed of 18 m/s at 30 o angle to the horizontal. Calculate the horizontal distance traveled by the shot if it leaves the athlete’s hand at a height of 2.0 m above the ground. Question (2) (7 Marks) (a) (i) State (in words) Pascal’s Principle. (ii) Give two examples of Pascal’s Principle. (b) Define specific heat. (c) A 13kg box is released on a 37o incline and accelerates down the incline at 2 m/s2 as shown in the figure beside. (i) Draw the free body diagram of the box. (ii) Find the friction force impeding motion of the box. (iii) What is the coefficient of kinetic friction? Question (3) (7 Marks) (a) (i) State (in words) Work-Energy principle. (ii) Define electric current. (b) How much work (in Joules) can a 4 hp motor do in 2 h. (c) The roller-coaster car shown in the figure below is dragged up to point 1 where it is released from rest. Assuming no friction, calculate the speed at point 2. 1 2 35m 1 20m Question (4) (a) Draw electric field lines: (7 Marks) (i) around a single negative charge. (ii) between two parallel plates having opposite charges. (b) If wind blows at 40 m/s over a house, what is the net force on the roof if its area is 220 m2 and is flat. (c) When a 250 g piece of iron at 190 β is placed in an 85 g aluminum calorimeter cup containing 300 g of a certain liquid at 10 β, the final temperature is observed to be 40oC. Estimate the specific heat of the liquid. Question (5) (a) A steady current of 3 A exists in a wire for 5 min. (7 Marks) (i) How much total charge passed by a given point in the circuit during those 5 min? (ii) How many electrons would this be? (b) The power supply for a pulsed nitrogen laser has a 0.07 πF capacitor with a maximum voltage rating of 25 kV. Estimate how much energy could be stored in this capacitor. (c) Three charged particles are arranged in a line as shown in the figure below. Find the magnitude and direction of the net electrostatic force on charge (πΈπ = −ππC) due to the other two charges. π. ππ π. ππ πΈπ = −ππππͺ πΈπ = +πππͺ πΈπ = −πππͺ Constants 1hp = 746 W ππππ = 1.3 kg/m3 2 g = 9.8 m/s 1π =1.6 ×10-19 C 1 π= = 9 × 109 N. m2 /C 2 4πππ GOOD LUCK 2 caluminum= 900 J/kg.β ciron= 450 J/kg.β DEPARTMENT OF GENERAL STUDIES YANBU INDUSTRIAL COLLEGE Semester I, 1435 – 1436 (H) / 2014 – 2015(G) PHY– 101, (General Physics) Key of Final Examination * Please consider the following: (1) If student made a mistake in one part which affects the results of other parts, then a mark should be deducted from the first part only, and we should award the student the marks for the other parts. (2) If the student did not write the unit of (the final result only) correctly, then he should not be awarded any mark for the final result (if the mark of the final result is 0.5). (3) Pay attention to the notes listed in the table of answer key. 3 Q# Part Q1) (a) 1) speed, 2) acceleration, Solution SI unit is (m/s) SI unit is (m/s2) Mark NOTES 0.5, 0.5 0.5 mark for 0.5, 0.5 each quantity and 0.5 mark for each SI unit. OR Any two derived quantities with their SI units. (b) π£ = π£π + π π‘ OR π£ 2 = π£π2 + 2π (π₯ − π₯π ) 1 π₯ = π₯π + π£π π‘ + π π‘ 2 2 π£ + π£π π£Μ = (c) 2 π£π = 18 π/π , π0 = 30π , π= βπ£ βπ‘ 0.5 0.5 0.5 0.5 π¦0 = 2π π£π₯π = π£π πππ ππ = 18 cos 30 = 15.59 π/π π£π¦π = π£π π ππππ = 18 sin 30 = 9 π/π π₯ = π₯π + π£π₯π π‘ π‘ =? ? 1 π¦ = π¦π + π£π¦π π‘ − ππ‘ 2 2 1 0 = 2 + 9π‘ − (9.8)π‘ 2 2 π‘1 = −0.2π , ππππππ‘ππ π‘2 = 2.04 π π = π + ππ. ππ × π. ππ = ππ. ππ Total Marks 4 0.5 0.5 0.5 0.5 0.5 0.5 7 If student writes π instead of a, give him one mark out of two. Q# Part Solution (i) Pascal’s Principle: If an external pressure is Q2) (a) applied to a confined fluid, the pressure at every point within the fluid increases by that amount. (ii) (a) Hydraulic lift, (b) Hydraulic brakes in car. OR (b) Any other two examples of Pascal’s Principle. Specific heat: heat needed to raise 1 gram (kg) of material by 1 β. Mark 1 NOTES 0.5 0.5 1 OR Specific heat: heat per unit mass to raise the temperature by 1 β. (c) (i) 1 (ii) m=13kg, π = 2 π/π 2 , ππ =? ? ∑ πΉπ₯ = ππ 0.5 πππππ 53 − ππ = ππ OR πππ ππ37 − ππ = ππ 13 × 9.8 × πππ 53 − ππ = 13 × 2 ππ = ππ. πππ΅ 0.5 (ii) ππ = ππ πΉπ ππ΅ = πππππππ πΆπΉ ππ΅ = πππππππ πΉπ = 13 × 9.8 × π ππ53 = 101.74π ππ = ππ. ππ = π. πππ πππ. ππ 5 (0.5 mark for FN and fk), and (0.5 for mg and its direction). 0.5 0.5 0.5 0.5 The mark for equation Total Marks Solution Q# Part Q3) (a) (i) Work-Energy Principle: The net work done on an object is equal to the change in the object’s kinetic energy. (ii) Electric Current: the rate of flow of charge. (b) π = 4βπ = 4 × 746 = 2984π€ππ‘π‘ π‘ = 2β = 2 × 3600 = 7200π π=ππ‘ πΎ = ππππ × ππππ = π. πππ × πππ π±πππππ (c) π£1 = 0 , β1 = 35π , β2 = 20π, πΈ1 = πΈ2 1 1 ππβ1 + ππ£12 = ππβ2 + ππ£22 2 2 1 2 9.8 × 35 = 9.8 × 20 + π£2 2 ππ = ππ π/π Total Marks 6 7 Mark 1 1 0.5 0.5 1 0.5 π£2 =? ? 1 1 0.5 7 NOTES If student writes πΎπ΅ππ = βπ²π¬, give him 0.5 mark. If student writes βπΈ π° = βπ , give him 0.5 mark. Q# Part Q4) (a) (i) (b) (c) Solution (ii) Mark 0.5, 0.5 π£1 = 40 π/π , π΄ = 220 π2 , πΉπππ‘ =? ? πΉπππ‘ = (βπ)π΄ 1 1 π1 + ππβ1 + ππ£12 = π2 + ππβ2 + ππ£22 2 2 π π π OR βπ· = ππππ (ππ − ππ ) π 1 βπ = × 1.3 × (402 ) = 1040ππ 2 ππ΅ππ = (ππππ) × πππ = πππππππ΅ ππππππ = 0.250 ππ ,ππππ = 0.085ππ, πππππ’ππ = 0.300ππ 7 0.5 for each part 1 1 0.5 0.5 0.5 πΆππππ = 450 π½/ππ. β, πΆπ΄π = 4186π½/ππ. β π1 = 10β, π2 = 190β , ππ = πππ = 40β, πΆππππ’ππ = ? ? ππππ π‘ = πππππππ ππππππ πΆππππ (π2 − ππ ) = πππππ’ππ πΆπππ. (ππ − π1 ) + ππππ πΆπ΄π (ππ − π1 ) 0.250 × 450 × (190 − 40) = 0.300 × πΆπππ. × (40 − 10) + 0.085 × 900 × (40 − 10) πͺππππππ = πππππ±/ππ. β Total Marks Q# Part Solution NOTES The mark for conversion three masses from gram to kg 1 1 0.5 7 Mark NOTES Q5) (a) πΌ = 3 π΄, π‘ = 5 πππ (i) βπ =? ? πΌ= βπ βπ‘ OR βπ = πΌβπ‘ βπΈ = π × π × ππ = πππ πͺ (ii) ππ. ππ πππππ‘ππππ = ππ. ππ πππππ‘ππππ = (b) (c) βπ π 900 1.6 × 10−19 = π. π × ππππ πΆ = 0.07ππΉ = 0.07 × 10−6 πΉ π = 25ππ = 25 × 103 π 1 PE = C V 2 2 2 1 PE = 0.07 × 10−6 × (25 × 103 ) 2 ππ = ππ. ππππ π1 = −11ππΆ = −11 × 10−6 πΆ, π2 = +4ππΆ = +4 × 10−6 πΆ, π3 = −3ππΆ = −3 × 10−6 πΆ π23 = 0.2 π, πΉ3 =? ? π3 π1 πΉ31 = π 2 π13 πΉ31 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 The mark for conversion three charges from ππͺ to πͺ. π13 = 0.6 π 1 = (9 × 109 ) πΉ31 = 0.825π πΉ32 = (9 × 10 0.5 3 × 10−6 × 11 × 10−6 0.62 towards +x direction 9) 0.5 3 × 10−6 × 4 × 10−6 0.22 πΉ32 = 2.7π towards -x direction πΉ3 = +πΉ31 − πΉ32 = 0.825 − 2.7 0.5 ππ = −π. ππππ΅ OR ππ = π. ππππ΅ towards -x direction Total Marks 0.5 8 7 Direction can be replaced by + sign with the value of the force. Direction can be replaced by - sign with the value of the force.
