Engineering Principles

Solution 1a

As given in question,

Y = -h, a = -9.8 m/s, t =?, S = -2.0 m, u = 4.5 m/sec

We know that distance travelled is given by

By solving these equations, we get,

T = 1.245 and -0.3276,

Time is non-negative, therefore, her feet in the air = 1.245 sec

Solution 1b

The highest point is calculated through

Putting the requied value from question (a)

Putting the value in this equation,

1.03316 m Ans

Solution 1c

The velocity at water level =

= -0.70701 m/sec

Solution 2a

As given in question, V = 80 m/sec, g = 10 m/sec², u = 0

We know that

Then, Putting the value

Ans

Solution 2b

Suppose the ball started from ground h = 0, Then time taken to reach the ball at the height of 320 m

Then t = 8 sec

Time taken to reach to the ground = 8*2 = 16 sec Ans

Solution 2c

, u = 80 m/sec, g = 10 m/sec², u = 0, t = 4 sec

The

Putting the value =

Solution 2d

The maximum acceleration of the ball at maximum height,

The acceleration will be 10 m/s² downward

Solution 2e

Since there is no external force acting on ball after release, therefore, acceleration = 10m/sec² upward or downward. The graph is as follows

Solution 2f

Since initial velocity is constant, the final velocity is changing with time, The graph of final velocity vs time is given below

Solution 3a

Suppose the value of acceleration due to gravity is taken as 9.8 m/sec²

H = 30 m, T = 1 second,

We know that, Putting the value in it.

The distance travelled in 1 second = 4.9 m

Solution 3b.

u= 0, g = 9.8 m/s², h = 30m,

As per equation

then, v = 24.25 m/sec

Solution 3c.

First, we must calculate time taken to reach the ground

Putting the values

t = 2.47

Distance covered in 1.47 sec = 0.5*9.8*1.47 = 10.58 m

Then, distance covered = 30.0-10.58 = 19.41 m

Solution 4a.

The relative velocity of 2^nd runner = 4.5-3.75 = 0.75 m/sec

Solution 4b.

Time taken by first runner = 250/3.75 = 66.66 sec

Time taken by second runner = (250+50)/4.5 = 66.66 sec

The time taken to cover their respective distance is equal to 66.66 sec, Therefore, both runners reach at the same time

Solution 5a.

Since both the runner, move reach the finish time at same time, so no gap between them at finish line.

As given in the figure,

Suppose the velocity of jet w.r.t air is given as V_ja

And velocity of air w.r.t. ground = V_ag

Now velocity of plane w.r.t ground

Then V_jg = ….(i)

V_jg = -219.081i-31.333j

Solution 5b.

The magnitude of this vector is resultant speed = 221.31 m/sec

The direction = Ans

Solution 6a.

Solution 6b.

As given in figure, the equilibrium of motion can be given as for horizontal direction

The constant velocity means, force will be applied only for friction , and acceleration is zero

Or F = 50/0.866 = 57.73 N

Worksheet One – Measurement and Mensuration

Solution 1a

100 km/hour = 1000*100/3600 = 27.77 m/sec

Solution 1b

100 km/hour = 100/1.609 = 62.1371 miles/hour

Solution 2a

33 m/s = 33*3.6 = 118.8 km/hour

Solution 2b

The result is 118.8 km/h, therefore, it is exceeding 90km/h

Solution 3

Since we know that,

Since, distance covered in 1 sec = 1 m

Then, distance covered in 3600 sec = 3600 m

Distance covered in 1 hr = 3600m = 3.6 km

Therefore, 1.0 m/s = 3.6 km/h

Solution 4

1 yard = 3ft, and 3.281 ft = 1 m

Then 100 yard = 300ft = 300/3.281 = 91.435 m Ans

Solution 5

Length of the Soccer field = 115 m = 115*3.281 = 377.315ft = 377 ft and 0.315*12 = 3.78 inch

Length of the Soccer field = 377’ 3.78” Ans

Width of the Soccer field = 85 m = 85 x 3.281 = 278.885 ft = 278 ft and 0.885*12 = 10.61 inch

Width of the Soccer field = 278’10.61”

Solution 6

6 ft 1inch = 72+1 = 73 inch,

Solution 7

As given in question,

3281 ft = 1 km

Then, 29028 ft = 29028/3281 = 8.8473 km

Solution 8

As given in question

Distance in 1 sec = 342 m/s

3600 sec = 342*3600 = 1231200 m = 1231200/1000 = 1231.2 km /hr Ans

Solution 9a

As given in question

1 year = 24*364*60*60 seconds move to 4 cm

1 sec = 4/3153600 = 126839 x 10^-7 cm /sec Ans

Solution 9b

As given in question,

In 1 year moves 0.00004 km

Then 1000000 yrs. moves = 0.00004*100000 = 40 km/million-year Ans

Solution 10

As given in figure, distance between earth and sun = r = 10⁸ = 10000000 km

Assuming as circular orbit, the distance covered by earth in 1 revolution

Putting the values,

Distance travelled by earth in 1 year (31536000 sec) =

Distance travelled by earth in 1 second = Ans

Solution 11

The uncertainty for a quantity is given as

The uncertainty of mas in 65 kg is 1.95 kg

Solution 12

The % uncertainty in measuring (0.5 cm = 0.005 m)

Ans

Solution 13

The uncertainty for a quantity is given as

The uncertainty of mas in 90 km is 4.5 km, which means the actual speed is in the range of 90-4.5 = 85.5 km/h or 90+4.5 = 94.5 km/h

Or, range is 85.5*0.6214 = 53.13 miles/hour to 58.72 miles/hour

Solution 14

The % uncertainty in measuring

Ans

Solution 15

As given in question, 72 beats /min = 72/60 = 1.2 beats /sec (Since 1 year = 31536000 sec)

In 2.0 years, the no of beats = 31536000*1.2*2 =75686400 = 7.5 x 10⁷ beats

In 2.00 years, the no of beats = 75.68x 10⁶ beats

In 2.000 years, the no of beats = 7.568 x 10⁷ beats

Solution 16

The Soda left after 308 ml removal = 375-308 = 67 mL

Solution 17a

In the given equation the lowest number of significant figures is 3.

Therefore, answer should be 3 significant figures

Solution 17b

(18.7)² Only one number which has significant figure 3. Therefore, solution will be 3 significant figures.

Solution 17c

(1.60 x 10^-19) (3712) = The lowest significant figure is 3, Therefore solution should be 3 significant figures.

Solution 18a

The number 99 consists of 2 significant figures, and 100 has 3 significant figures

Solution 18b

The uncertainty in 99 =

The uncertainty in 100 =

Solution 18c

As per result obtained from part a and b, The % uncertainty show deviation from the results, therefore, % uncertainty is more meaningful.

Solution 19a

The % uncertainty in speedometer = = 2.22%

Solution 19b

The range of speed at 60 km/h =

The range of the speed in between = 55.667 to 61.333 km/h Ans

Solution 20a

The % uncertainty in blood pressure= = 1.667%

Solution 20b

The uncertainty in blood pressure at the 80 mmHg = 80*1.667/100 = 1.33 mm Hg

Solution 21

The heart rate for one minute =

The % uncertainty in heart rate= = 2.5% + 1.7% = 4.2%

Therefore, uncertainty in heart rate

Therefore, heart rate is 80 beats/min with uncertainty 3 beats/min

Solution 22

The area of circle is given by = Then putting the values

Ans

Solution 23

The time taken to cover the marathon at the speed of 9.5 mi/h Ans

Solution 24

The distance in meter = 42188 m

Solution 24a

The uncertainty in distance =

Solution 24b

Time in seconds = 2*3600+30*60+12= 9012 sec Ans

The uncertainty in time = Ans

Solution 24c

The average speed in meter / sec = 42188/9012= 4.681 m/sec Ans

Solution 24d

In this condition we must take two averages as per uncertainty, one is max and other is min average.

Max average

Min Average = m/sec Ans

Solution 25

The volume of the box can be given as (Putting the value)

Volume of box = 1.8 x 2.05×3.1 = 11.439 cm³

The max volume with uncertainty = (1.8+0.01) (2.05+0.02) (3.1+0.1)

V_max = 11.99 cm³

The min volume with uncertainty = (1.8-0.01) (2.05-0.02) (3.1-0.1)= V_min = 10.90 cm³

The volumetric with uncertainty = 11.99-10.90 = 1.09 cm³ Ans

Solution 26

Since 1 pound = 0.4539 kg

Then, 0.0001kg = 0.0001/0.4539 = 0.00022 lb

The % uncertainty in pound = 0.00022/1 % = 0.022 %

The uncertainty in 1kg = 1000 gm = 1000*0.022 = 22 gm Ans

Solution 27

The area of room A = lxb = 3.955*3.050 = 12.063 cm²

The Max area of room with uncertainty = (3.955+0.005) (3.05+0.005) = 12.098

The min area of room with uncertainty = (3.955-0.005) (3.05-0.005) = 12.028

The amount of uncertainty in area = 12.098-12.028 = 0.070 cm² Ans

Solution 28a

The volume of piston =

The gas decreases in piston in volume = 143.508 cm³

Solution 28b

The max volume with uncertainty = = 143.63 cm³

The max volume with uncertainty = = 143.39 cm³

Uncertainty in volume = 143.63-143.39 = 0.2414 cm³

Worksheet Two – Kinematics

Solution 1a

The distance covered by path A = Ans

Solution 1b

The magnitude of the distance covered = Ans

Solution 1c

The displacement from start to finish = Ans

Solution 2a

The distance covered by path B = Ans

Solution 2b

The magnitude of the distance covered = Ans

Solution 2c

The displacement from start to finish = Ans

Solution 3a

The distance covered by path C

Ans

Solution 3b

The magnitude is given by = Ans

Solution 3c

The displacement from start to finish = Ans

Solution 4a

The distance covered by path D

= Ans

Solution 4b

The magnitude of the distance covered = Ans

Solution 4c

The displacement from start to finish = Ans

Solution 5a

As given in figure, distance between earth and sun = r = 10⁸ = 10000000 km

Assuming as circular orbit, the distance covered by earth in 1 revolution

Putting the values,

Distance travelled by earth in 1 year (31536000 sec) =

Distance travelled by earth in 1 second =

Solution 5b

Since the average velocity in a year = displacement /time,

But in case of revolution displacement is zero, therefore, average velocity = 0

Solution 6

Since the average velocity in a year = displacement /time,

But in case of revolution displacement is zero, therefore, average velocity = 0

Solution 6

As given in question, 100 revolution /min = 100/60 = 5/3 rev /sec

The circumference of the radius = = 2 *3.14*5 = 31.4 m

Distance covered in 1 sec = speed = 31.4*5/3 = 52.33 m/sec Ans

Solution 7

500 km = 500*1000*100 cm

Speed of drifting = 3 cm/year

Time taken to cover 5.0*10⁷ cm = 5/3 * 10⁶ = 1.66 x 10⁷ year Ans

Solution 8

590 km = 590*1000*100 cm

Speed of drifting = 6 cm/year

Time taken to cover 5.90*10⁷ cm = 5/3 * 10⁶ = 9.833 x 10⁶ year Ans

Solution 9

Total time in hour = 13h + 4/60 h+ 58/3600 hour = 13.08278 h

Average speed of train = distance / time = 1633.8/13.08278 = 124.88 km/h

Speed in m/sec = 124880/3600 = 34.68 m/sec

Solution 10

We know that, 3.84 x 10⁶ m = 384×10⁶ cm

Time taken to cover this distance = 96 x 10⁶ year Ans

Solution 11a

The average speed of the car = 12*60/18 = 40 km/hour

Solution 11b

The average velocity = displacement / time = 10.3 *60/18 = 34.33 at the direction 25^o south of east.

Solution 11c

Total time by trip = 7.5 hr

Overall speed of return journey = 24/7.5 = 3.2 km /hr.

Solution 11d

Since the overall displacement is zero, therefore, average velocity will also be zero

Solution 12

Time taken to travel the nerve cell = 1.1/18 = 0.0611 sec Ans

Solution 13

Distance covered by echo time = distance between earth and moon = speed x time

Distance between earth and moon = 2.56 x 3 x10⁸ = 7.68 x 10⁸ meter Ans

Solution 14a

The velocity for straight down 15 m = 15/2.5 = 6

The velocity of backward 3 m =3/1.75 = 1.71 m

The velocity of straight forward = 21/5.2 = 4.0384 m/sec

Solution 14b

Total displacement = 15 -3+21 = 33 m

Total time = 2.5 + 1.75 + 5.2 = 9.45 sec

Then average velocity = 33/9.45 = 3.49 m /sec in forward direction

Solution 15a

Circumference of the hydrogen atom = 3.14 x 1.06 x 10^-10 m,

Speed of the electron = 2.2 x 10^-10 m/s

Time in one revolution = = 1.5129 x 10^-16 sec

Revolution in one sec = 1/(1.5129 x10^-15) = 6.61 x 10¹⁵

Solution 15b

Since displacement is zero after each revolution, then velocity will also be zero.

Solution 16

We know that acceleration = v-u/t = 30-0/7 = 4.286 m/sec² Ans

Solution 17a

For first case, v = 282 m/s, u = 0, t = 5 s

Acceleration = 282-0/ 5 = 56.4 m/sec² = 56.4/9.8 = 5.755 g

Solution 17b

For second case, u = 282 m/s, v = 0, t = 1.4

Then deceleration = 0-282/1.4 = -201.42 m/sec² = -201.42/9.8 = 20.55g Ans

Solution 18a

As given in question, v = 2.00 m/s, u = 0, a = 1.4 m/s²

V =u+at = 0+1.4t, or t = 2.00/1.4 = 1.4285 seconds

Solution 18b

U = 2.00, v = 0, t = 0.8 sec

Then a = v-u/t = 0-2/0.8 = -2.5 m/s² Ans

Solution 19

As given in question, 6.5 km/s = 6.5*1000 = 6500 m/sec t = 60 s, u = 0

Then acceleration = v-u/t = 6500-0/60 = 108.33 m/s²

The average acceleration of ballistic missile = 108.33/9.8 = 11.054 g Ans

Solution 20

As given in question,

A = 4.50 m/s², t = 2.4 s, u = 0

Then v = u+at , v = 0+4.5*2.4 = 10.8 m/s² Ans

The graph of distance vs time is given below

Ans

Solution 21

As given in question,

v = 0, a = -2.1 x 10⁴ m/s², u = ?, t = 1.85 x 10^-3 seconds

We know that, v = u+at, Putting the values,

0 = u – 2.1 x 10⁴ x 1.85 x 10^-3 or, u = 2.1 x 10⁴ x 1.85 x 10^-3 = 38.85 m/s

Velocity when touches the mitt = 38.85 m/s

Solution 22

As given in question,

U = 0, t = 8.1 x 10^-4, a = 6.2 x 10⁵ m/s², v = muzzle velocity = ?

We know that v = u+at, then v = 0+ 8.1*10^-4 x 6.2×10⁵ = 502.2 m/s

Therefore muzzle velocity = 502.2 m/s

Solution 23a

As given in question,

U = 0, t =?, a = 1.35 m/s², v = 80*1000 m /h = 22.22 m/s

We know that v = u+at, then 22.22 = 0 + 1.35*t

Time taken to accelerate = t = 22.22/1.35 = 16.46 sec

Solution 23b

As given in question,

U = 22.22, t =?, a = -1.65 m/s², v = 0

V = u+at, t = v-u/a = -22.22/-1.65 = 13.46 seconds

Solution 23b

During emergency

U = 22.22, t = 8.3, v = 0, a =?

We know that, putting the values,

In case of emergency train decelerates at -2.67 m/²

Solution 24a

In this problem,

Solution 24b

The known variable are listed below

U = 12 m/s, a = 2.4 m/s², t = 12 seconds, and unknown is final velocity v

Solution 24c

The unknown variable is final velocity, which can be calculated as follows

Putting the values

V = 0+2.4 x 12 = 28.8 m/sec.

After knowing the unknown variable we can calculate the distance travelled in 12 seconds, which is as follows

Where S is the distance travelled in meter. Putting the value in above equation,

28.8² = 0²+2 x 2.4 x S

Or, S = 28.8²/4.8 = 172.8 m. therefore, distance travelled = 172.8 m

Solution 25a

U = 9.00 m/s, a = 2.00 m/s², t = 5.00 sec

Distance travelled in 5 sec = ut +0.5at² = 9*5-0.5*2*5² = 45-25 = 20 m

Therefore, distance travelled by runner = 20 m

Solution 25b

Final velocity after 5 sec, v = u+at, v = 9-2*5 = 9-10 = -1 m/sec

The calculation shows that, final velocity is negative, we must calculate the time at final velocity 0

T = v-u/a = 0-9/2 = 4.5 sec,

Solution 25c

The runner stops at 4.5 sec, therefore final velocity of the runner must be zero after 5 sec

Ans

Solution 26a

The sketch is given below

Solution 26b

The known variable in this problem is listed below

U = 0, v = 30 cm/s, S = 1.8 cm

Solution 26c

As given above known variable,

Putting the value in this equation

30² = 0+2 x a x 1.8

Then, a = 900/3.6 = 250 cm/sec²,

Then time taken to accelerated = t = 30/250 = 0.12 seconds

Solution 26d

Since our heart rate is 72 beats in 60 seconds, i.e. one beat is in 0.83 seconds, The time of blood acceleration is only a fraction of time, therefore, answer is reasonable.

Solution 27

U = 8 m/s, v = 40 m/s, t = 3.33 x 10^-2 s, a = ?, S = ?

We know that, a = (v-u)/t = (40-8 )/3.33×10^-2 = 960.961,

The distance covered during acceleration

Putting the value in this equation

= 40² = 8² + 2 x 960.961xS

Then S = 1536/1921.922 = 0.7992 m Ans.

Solution 28

U = 0, v = 26.8 m/s, t = 3.9 s, a =?

The average acceleration of bike = 26.8-0/3.9 = 6.87 m/s²

Distance travelled during acceleration

S = 0.5 x 6.87 x 3.9² = 52.25 m Ans

Solution 29a

As given in question,

U = 4 m/s, a = 0.05m/sec², v = ?, t= 8*60 = 480 sec

We know that, v=u+at, Putting the value in eq.

V= 4+480*0.05 = 24+4 = 28 m/sec

Final speed of train is 28 m/s

Solution 29b

U = 28 m/s, v = 0, a = .55m/s, t = ?

We know that, =( 28-0)/0.55 = 50.9090 seconds

Time taken to stop the train 50.9090 seconds

Solution 29c

Case 1 Acceleration,

Now, u = 4 m/s, t = 480 s, a = 0.05

We know that

S = 4 * 480 + 0.5 x 0.05×480² = 7680 m

Case 2 deceleration,

Now, u = 28 m/s, t = 50.91 s, a = 0.55

We know that

S = 50.91 * 28 – 0.5 x 0.55×50.91² = 712.7273 m

Solution 30a

U = 0, v = 65.0 m/sec, S = 0.250 m, a =?, t = ?

Putting the value in this equation

= 65² = 0² + 2 x 0.25xa

a = 4225/0.5 = 8450 m/s²

U = 0, v = 65.0 m/sec, S = 0.250 m, a = 8450 m/s², t =?

T = (v-u)/a = 65/8450 = 0.007692 s Ans.

Solution 30b

U = 0, v = 65.0 m/sec, S = 0.250 m, a =?, t = ?

Putting the value in this equation

= 65² = 0² + 2 x 0.25xa

a = 4225/0.5 = 8450 m/s²

Solution 31a

U = 0, v = 6 m/s, a = 0.35 m/s²

Distance travelled in accelerating

6² = 0² + 2×0.35xS

Then S = 36/0.7 = 41.42 m

Solution 31b

V = 6 m/s, u = 0, a = 0.35 m/s², t =0

T = (v-u)/a = 6/0.35 = 17.14 seconds

Therefore, time taken to become airborne is 17.14 seconds and distance covered is 41.42 m

Solution 32a

As given in question,

U = 0.60 m/s, v = 0, S= 2.00 mm = 2 x 10^-3 m

We know that, = -90 m/s²

The deceleration in g format = 90/9.8 = 9.184 g

Solution 32b

Now time can be calculated as

Putting the values

0.00667 seconds Ans

Solution 33a

U = 7.5 m/s, v = 0, S= 0.35 m,

We know that, = -80.36 m/s² Ans

Solution 33b

Now time can be calculated as

Putting the values

0.0933 seconds Ans

The deceleration of player -80.36 and time to collide = 0.0933 s

Solution 34

As given in question,

U = 54m/s, g = -9.8 m/sec², v = 0, t=? Sec, S = 3 m

We know that, = -486 m/s²

Solution 35a

As given

V = ?, u = 0, g = 9.8 m/s², h = 3 m

Putting the value in this equation

V² = 2 x 9.8 x 3 , then v = 7.668 m/s

Solution 35b

Now, u = 7.668 m/sec, v = 0, S = 2/100 = 0.02 m

We know that, = -1469.96 m/s²

Therefore, squirrel decelerates at 1469.96 m/s²

Solution 36a

As given, u = 22 m/s, a =- 0.15 m/s², S =210 m,

The time taken to travel the nose of the train will be distance covered by engine on the platform

S = ut +0.5at² Putting the value in equation

210 = 22t-0.5×0.15t²,

Then 0.075t² – 22t+210 then t = 9.8781, 283.46

Therefore, t = 9.8781 and 283.46 Ans.

To decide the time of crossing the train, we must find the time to become stops the train

Using V = u + at, Then, 0 = 22-0.15*t, or t = 22/0.15 = 146.667.

Since the train stops at 146.667 seconds, therefore, train must cross the platform at time 9.87 s

Solution 36c

The distance travelled by train must include platform + length of train = 130+210 = 340m

We will use the following station

Putting the values, 340 = 22t- 0.5*0.15*t²

Or, 0.075t² -22t +340 = 0 , T = 16.37 seconds Ans

Solution 36d

U = 22 m/sec, S = 340 m, a = -0.15 m/s²

Using the formula,

Ans

Solution 37a

The average acceleration of the dragster Ans

Solution 37b

As information obtained from (a)

U = 0 m/se, S = 402 m, v =?, a = 32.58 m/s²

= + 2 *32.58*402

Then v = 161.8466 m/sec Ans

Solution 37c

For any vehicle, the change of gear reduces the acceleration of the vehicle, same has happened to dragster also. The final velocity would be less that what calculated above.

Solution 38a

U = 11.5 m/s, a = 0.5 m/s², t = 7 sec

Solution 38b

Time taken to cover 300 m at constant velocity 11.5 m/s = 300/11.5 = 26.09 s

Distance covered at 0.5 m/s² acceleration = S = 11.5 x 7 +0.5×0.5*7 = 92.75

The distance covered by racer in 7 seconds is 92.75

The rest distance covered by constant velocity of 15 m/sec = 300-92.75 = 13.82

Total time taken by racer = 13.82+7 = 20.82

Saved time = 26.09-20.82 = 5.27 Seconds

Solution 38c

Th time taken by 2^nd racer = 295/11.8 = 25.0 s

Time taken by first racer to cover 300 m = 20.82 sec

The time difference of winner racer = 25-20.82 = 4.18 seconds Ans

The difference in distance = 4.18*15 = 62.7 m

Solution 39

The acceleration can be calculated as,

The time required to attain the speed = 183.58 mi/h

The distance travelled during acceleration

The distance remained to cover = 5.0-0.31 = 4.7 mi

And Time for rest of the distance =

Then total time required to cover the distance = 92.17 + 12.2 = 104.37 seconds

Solution 40a

A given in question u = 0, t = 9.69 sec, time for acceleration = 3 s, S = 100 m

The distance covered in constant speed =

If we substitute the value of d for velocity part

Putting the value d =1.5v

100-1.5v= 6.69v

Or, v = 100/8.19 = 12.21 m/s

Now we got final velocity v =12.21 m/s

Then acceleration

Ans

Solution 40b

In this case the decelerating part is = 200-d

The covered distance = d =

Equating the problem as previous

200 – d = v(16.30)

Or, v = 200/17.88 = 11.2 m/se

Therefore, maximum velocity of Usain Bolt = 11.2 m/se

Solution 41a

As given in question,

U = 15.0 m/s, g = -9.8 (Upward), t = 0.5

The attained height H = 15*0.5 – 0.5*9.8*.5² = 7.5 – 1.225 = 6.275 m

Final velocity v = 15-9.8*0.5 = 15-4.9 = 10.1 m/s

Solution 41b

As given in question,

U = 15.0 m/s, g = -9.8 (Upward) t = 1.00

The attained height H = 15*1 – 0.5*9.8*1² = 15 – 4.9 = 10.1 m

Final velocity v = 15-9.8*0.5 = 15-4.9 = 5.2 m/s

Solution 41c

As given in question,

U = 15.0 m/s, g = -9.8 (Upward) t = 1.50

The attained height H = 15*1.5 – 0.5*9.8*1.5² = 22.5 – 11.025 = 11.475 m

Final velocity v = 15—14.7= 0.3 m/s

Solution 41d

As given in question,

U = 15.0 m/s, g = -9.8 (Upward) t = 2.0

The attained height H = 15*2 – 0.5*9.8*2² = 30 – 19.6 = 10.4 m (falling)

Final velocity v = 15—19.6= -4.6 m/s (downward)

Solution 41e

As given in question,

U = 15.0 m/s, g = -9.8 (Upward) t = 2.5

The attained height H = 15*2.5 – 0.5*9.8*2.5² = 37.5 – 30.625= 6.875 m (falling)

Final velocity v = 15—24.5= -9.5 m/s (downward)

Solution 42a

As given in question,

U = 14.0 m/s, g = 9.8 (Downward), t = 0.5, H = 70 m

The attained height H = 14*0.5 + 0.5*9.8*.5² = 7 – 1.225 = 8.225 m

Position of stone = 70-8.225 = 61.775 m above ground

Final velocity v = 14+9.8*0.5 = 14+4.9 = 18.9 m/s

Solution 42b

As given in question,

U = 14.0 m/s, g = 9.8 (Downward), t = 1.0, H = 70 m

The attained height H = 14*1 + 0.5*9.8*1² = 14 + 4.9 = 18.9 m

Position of stone = 70-18.9 = 51.1 m above ground

Final velocity v = 14+9.8*0.5 = 14+9.8 = 23.8 m/s

Solution 42c

As given in question,

U = 14.0 m/s, g = 9.8 (Downward), t = 1.5, H = 70 m

The attained height H = 14*1.5 + 0.5*9.8*1.5² = 32.025 + 37.975 = 37.975 m

Position of stone = 70-32.025 = 37.975 m above ground

Final velocity v = 14+9.8*1.5 = 14+14.7 = 28.7 m/s

Solution 42d

As given in question,

U = 14.0 m/s, g = 9.8 (Downward), t = 2.0, H = 70 m

The attained height H = 14*2.0 + 0.5*9.8*2.0² = 28 + 19.6 = 47.6 m

Position of stone = 70-47.6 =22.4 m above ground

Final velocity v = 14+9.8*2.0 = 14 19.6 = 33.6 m/s

Solution 42e

As given in question,

U = 14.0 m/s, g = 9.8 (Downward), t = 2.5, H = 70 m

The attained height H = 14*2.5 + 0.5*9.8*2.5² = 35 + 30.625 = 66.625 m

Position of stone = 70-4.375 =4.375 m above ground

Final velocity v = 14+9.8*2.5 = 14 +24.5 = 38.5 m/s

Solution 43

U = 0, g = -9.8 m/s², H = 1.25 m

We know that, Putting the value in equation

Ans

Solution 44a

The known variable is as follows

U = 1.4 m/s, t = 1.8 s, g = 9.8 m/s²

Solution 44b

H = ut+0.5t² = 1.4×1.8 + 0.5*1.8*1.8*9.8 = 2.52 + 15.876 = 18.396 m Ans

Solution 45a

The known variable in this problem is as follows

U = 13.0 m/s, g = 9.8 m.s², v = 0, H = ?

The height attained by dolphin, is at hat point where final velocity gong upward will be zero.

Solution 45b

From the equation

Putting the value of known variable

0 = 13² -2 *9.8*H, or H = 169/19.6 = 8.62245 m

Solution 45c

The time taken to reach the highest point t =

The time taken to going upward is 1.327 s, similarly time taken to going downward = 1.327

Total time in air = 1.327+1.327 = 2.653 s

Solution 46a

As given in question, u = 4 m/s, g = -9.8 m/s²(upward), H = 1.8 m, v = 0

Since The swimmer jumps from board, therefore, distance covered will addition of board height

0 = 4² – 2*9.8 *H

Or H = 16/19.6 = 0.816 m,

The total height = 1.8 m+0.816 = 2.616 m

The time taken in going up = t = 4-0/9.8 = 0.408 s

Now time taken to come to the water

S = ut+1/2gt² Putting the value,

2.616 = 4.9t² or, = 1.37 sec

Total time in the air = 0.408+1.37 = 1.77661 s

Solution 46b

As given in question, u = 4 m/s, g = -9.8 m/s²(upward), H = 1.8 m, v = 0

Since The swimmer jumps from board, therefore, distance covered will addition of board height

0 = 4² – 2*9.8 *H

Or H = 16/19.6 = 0.816 m,

The total height = 1.8 m+0.816 = 2.616 m

Solution 46c

The final velocity can be calculated as

V² = 2 * 9.8*2.616 = 51.2736, then v = 7.1606 m/sec Ans

Solution 47a

As given, t = 2.35 s, u = 8.00 m/s, g =-9.8 m/s² (Upward)

H = ut+0.5gt² = 8*2-0.5*9.8*2.35² =

H = ut+0.5gt² = 8*2+0.5*9.8*2.35² = 18.8 + 27.0602 = 8.26 m

The height of the Thrown stone from cliff = 8.26m

Time taken to reach the top point

T = -8/-9.8 = 0.816 s

The time taken by stone to reach the ground = 2.35 – 0.816 = 1.533673

Now I must calculate distance covered in 1.534 sec

H = ut +0.5gt² = 0+0.5*9.8*1.534² = 11.52556

Then height of the cliff = 3.265 m

Solution 47b

Time taken to reach the stone when thrown downward,

U = 8.0 m/s, H = 3.265, g = 9.8

We know that, H = ut +0.5at², Putting the value

3.265 m = 8t+4.9t²

4.9t² + 8t-3.265 = 0

Calculated root is

T = 0.33811 and – 1.97076

Since negative amount is neglected for time, t = 0.33811 seconds Ans

Solution 48

As given in question,

U = 11 m/sec, g = 9.8 m/sec², height = 2.2m, another height = 1.8 m

The equation for distance covered = H = H’ + ut +0.5at²

Putting the value

2.2 = 1.8 +11 -0.5 *9.8*t²

Solving the equation through quadratic equation

Negative value is omitted, t = 2.26 seconds,

Then shot putter must get away = 2.26 seconds

Solution 49

As given, u = 15 m./sec, H = 7m, g = 9.8,

The formula for distance

With the help of above equation, the equation of time

Putting the required value from question,

After solving the above quadratic equation, we get t =0.57 and 2.49 s

Tome taken to pass the branch while upward = 0.57 s

Tome taken to pass the branch while upward = 2.49 s

The required time interval = 2.49 -0.57 = 1.92 s Ans

Solution 50a

As given, H = 2.5 m, v =0, u =?, g = 9.8 (upward)

Putting the value

0² = u² – 2*9.8*2.5, u² = 49, then u = 7 m/s Ans

Solution 50b

Time taken to reach the air = t = 2H/(u+v) = 5/7 = 0.714 seconds Ans

Solution 51a

The reference plane distance = 0, Suppose the rock reaches at place H after 1.5 s

Then

H-H_o = ut+1/2gt², y = 0*1.5 + ½(-9.8)(1.5)² = -11.02 m

The rock will be visible for hiker H = 105 – 11.02 = 93.98 m

Solution 51b

The time taken to reach the ground by rock can e given as

Putting the values

Time for hiker to take action = 4.6-1.5 = 3.1 seconds Ans

Solution 52a

As given in question

U = 0, t = 1 sec, g = 9.8 m/sec² (downward)

We know that,

, H = ut +0.5at², Putting the value

H = 0-4.91² = -4.9 m

Distance traveled in 1^st sec = 4.9 m

Solution 52b

The final velocity of the object is

The velocity at which the ball reach at ground = 38 m/sec

Solution 52c

We know that,

or Ans

Then distance travelled by body in first 2.9 second

H = 0 + 0.5*9.8*2.9² = 41 m

Hence distance travelled in last second = 75-41 = 34 m Ans

Solution 53a

As given, u = 0, H = 250 m, g = 9.8 m/sec²(Upward)

The final velocity while hitting the ground = 70 m

Solution 53b

Sound speed = 335 m/s, H = 250

Time taken to reach to sound =250/335 = 0.75 seconds

The reaction time by tourist = T = 0.75 + 0.30 = 1.05 seconds

Time taken by rock to reach = t = (v-u)/a = 70/9.8 = 7.143 seconds

Then time for action taken by tourist = 7.143 – 1.05 = 6.10 seconds Ans

Worksheet Three – Kinematics

Solution 1a

As given in figure,

The distance covered by A is three blocks to the north and one block east,

Then, distance travelled by A = (120 +120+120) +(120) = 480 m Ans

Solution 1b

The displacement is measure as perpendicular = 120 + 120 +120 = 360 m

Now we must calculate hypotenuse

The direction = Ans

Solution 2a

As given in figure,

Distance travelled in east direction, d₁ = 4 *120 = 480 m

Distance travelled in north direction d₂ = 3 *120 = 360 m

Distance travelled in west direction d3 = 3 *120 = 360 m

Total distance travelled = 480 + 360 + 360 = 1200m = 1.2 km

Solution 2b

Net movement in east = 120 m

Net movement in north = 360 m

The displacement can be given by h =

The direction of the movement = Ans

Solution 3

The displacement component in north direction can be given as

Putting the value

S_n = 5 x Sin40^o = 5 *0.642 = 3.21 km

Solution 4

Suppose,

Resultant vector at 90^o

The angle between these two vectors

Actual angle = 90^o 54.25⁰ = 35.75^o

Therefore, the magnitude and direction = 30.8 m and 35.75^o west of north

Solution 5

The figure for the arrangement is as follows.

Suppose x component vector = A_s =A*Cosθ

Putting the value for given θ

A_s = 12.0 x Cos (90^o +20^o)

A_s= 120 x Sin(20^o) = 12.0 * (-0.342) = -4.104 m

For the same way, component along y axis

A_y = 12.0 x Cos20^o = 12.0 x 0.939 = 11.27 m

Similarly, for B vector component along the x and y axis

B_x = 20 *Cos(220^o) = 20 * (-0.667) = -15.32 m

And B_y = 20 *Sin(220^o) = 20 * (-0.6427) = -12.85 m

Therefore, resultant force in x and y axis

R_x = -4.104 – 15.32 = -19.42 m

R_y = 11.27-12.85 = -1.58 m

The resultant magnitude

R = Ans

And direction Ans

Solution 6

The diagram for the problem can be stated as

We must calculate the x component

The resultant R can be calculated as

Ans

Solution 7a

The component in A_x and A_y can be given as

Suppose x component vector = A_s =A*Cosθ

Putting the value for given θ

A_s = 12.0 x Cos (90^o +20^o)

A_s= 120 x Sin(20^o) = 12.0 * (-0.342) = -4.104 m

For the same way, component along y axis

A_y = 12.0 x Cos20^o = 12.0 x 0.939 = 11.27 m

Similarly, for B vector component along the x and y axis

B_x = 20 *Cos(40^o) = 20 * (-0.667) = 15.32 m

And B_y = 20 *Sin(40^o) = 20 * (-0.6427) = 12.85 m

Therefore, resultant force in x and y axis

R_x = -4.104 +15.32 = 11.21 m

R_y = 11.27+12.85 = 24.12 m

The resultant vector

The resultant magnitude

R = Ans

And direction Ans

Solution 7b

The component in A_x and A_y can be given as

Suppose x component vector = A_s =A*Cosθ

Putting the value for given θ

A_s = 12.0 x Cos (90^o +20^o)

A_s= 120 x Sin(20^o) = 12.0 * (-0.342) = -4.104 m

For the same way, component along y axis

A_y = 12.0 x Cos20^o = 12.0 x 0.939 = 11.27 m

Similarly, for B vector component along the x and y axis

B_x = 20 *Cos(220^o) = 20 * (-0.667) = -15.32 m

And B_y = 20 *Sin(220^o) = 20 * (-0.6427) = -12.85 m

Therefore, resultant force in x and y axis

R_x = -15.32 –(-4.104) = -11.21 m

R_y = -11.27-12.85 = -24.12 m

The resultant vector

The resultant magnitude

R = Ans

And direction Ans

Solution 8

Suppose there are three two dimensional vectors,

Now Adding three vectors, like X+Y+Z

X+Y+Z = ( ( +(

And adding these vectors in different order

Z+Y+X = ( + (

= ( ( +(

In this condition we can say that, sum of these vector in different order results the same

Solution 9

The rectangular form of vector

Similarly

Adding both vector

R =

The resultant magnitude

The direction can be given as

Angle w.r.t x direction

= 180-89.9^o = 90.1^o Ans

Solution 10

If we resolve the vector into x and y component, then vector in x direction can be given as

………(i)

Similarly, in y direction

………. (ii)

If we eliminate V_B from equation (i) and (ii)

Similarly, for equation (ii),

Equating the above two equation

Therefore, Now putting the values

Ans

Now putting the value of V_A and V_Total

Ans

Solution 11

The component of V_Total can be given as

Ans

Solution 12

The resultant component of rotated axis can be given, the x component is given as

Ans

And the y component

Solution 13a

As given in figure, 3.58

The distance traveled by C is given as

X = 1*120+5*120+2*120+1*120+1*120+3*120 = 1560 m = 1.56 km

Solution 13b

Resolving the component in x and y direction,

Then resultant will

The angle can be given as

Ans

Solution 14

The distance travelled along the path D

S = 2*120+6+120+4*120+1*120 = 1560 m

If we resolve the component into x and y direction

And the direction

Solution 15

Resolving the vectors in x and y components

Ans

Solution 16

Resultant

Putting the values

R =

The direction The compass reading will be 90 – 54.25 = 35.75^o west to north. Analytical technique is more accurate process.

Solution 17

As given in question,

R = X+Y = Y+X

The resultant

And direction

In this condition we must take alternate path where there is not obstacle.

Solution 18a

As given in fig.

We can see that, <ABC = <BAD

Segment AC is in the direction east

The distance AC

Putting the value in it

AC = 7.5 Sin15^o = 1.94 km

Similarly CB = 7.5*Cos15^o = 7.24 km

Solution 18a

In this condition the overall route must be ADB. In this condition we can say that, the resulting displacement is still same as AB.

Solution 19a

As per figure the resultant displacement

R = X+Y = X-Y = 18i-25j

And its magnitude

And direction

Solution 19b

As per figure the resultant displacement

R = X+Y = X-Y = -18i+25j

And its magnitude

And direction Ans

Solution 20

As per the vector diagram,

The sum of vector = A+B+C = 0

Or C =-A-B

Resolving the vector into x and y component

The resultant vector C

And its magnitude

And direction Ans

Solution 21a

The component along south direction

D_s = RSinθ = 32Sin(35^o) = 18.4 km

D_W = RCosθ = 32Cos(35^o) = 26.2 km

Solution 21b

Similarly, distance towards South and north direction is S_SW and S_NW

S_SW = RCosθ = 32Cos(10^o) = 31.5 km

S_NW = RSinθ = 32Cos(10^o) = 5.56 km Ans

Solution 22a

As given in diagram, we must resolve all the vector into x and y component

As per the vector diagram,

The sum of vector = A+B+C+D = 0

Or D =-A-B-C

Resolving the vector into x and y component

The resultant vector C

And its magnitude

And direction Ans

Solution 23

The given vector can be Summerside as follows

i) 5 km at 135^o
ii) 7 km at 300^o

iii) 1.3 km at 205^o

iv) 1 km at 0^o
v) 7 km at 85^o
vi) 2 km at 235^o

vii) 2.8 km at 10^o

The given problem can be represented as in fig

After resolving the given vector in question into x and direction,

The resultant can be given as

And direction Ans

Worksheet Four – Kinematics