A particle of m=5kg is momentarily at re...

A particle of `m=5kg` is momentarily at rest at `x= at `t=. It is acted upon by two forces `vec(F)_(1)` and `vec(F)_(2)`. `Vec(F)_(1)=70hat(j)` N. The direction and manitude of `vec(F)_(2)` are unknown. The particle experiences a constant acceleration, `vec(a)`,in the direction as shown in (figure) Neglect gravity.

a.Find the missing force `vec(F)_(2)`.
b. What is the velocity vector of the particle at `t=10 s`?
c. What third force, `vec(F)_(3)` is required to make the acceleration of the particle zero? Either give magnitude and direction of `vec(F)_(3)` or its components.

Text Solution

Verified by Experts

The correct Answer is:

a.`30sqrt(2)`; b.`60hat(i)+80hat(j)`; c.`30hat(i)-40hat(j)`

`vec(F)_(1)+vec(F)_(2)=m.vec(a)`
`(70hat(j)+F_(2)hat(i)+F_(2)hat(j))=5(10 xcos53hat(i)+10sin53hat(j))`
`=50(10xx3/5hat(i)+10xx4/2hat(j))`
By comparing two sides. We get
`F_(2)hat(i)=30hat(i)rArrF_(2)hat(j)=-30hat(j)`
`:. vec(F)_(2)=30hat(i)-30hat(j)`
`|F_(2)| =sqrt((30)^(2)+(30)^(2))=30sqrt(2)N`
At `t`=`10s`
`v=vec(u)+at=10(6hat(i)+8hat(j))=60hat(i)+80hat(j)`
Acceleration will be zero if a third force makes resultant force =0
`:. vec(F)+vec(F)_(2)+vec(F)+(3)=0`
or `vec(F)_(3)= -(vec(F)_(1)+vec(F)_(2))=-(70hat(j)+30hat(i)-30hat(j))=30hat(i)-40hat(j)`

Topper's Solved these Questions

VECTORS
CENGAGE PHYSICS ENGLISH|Exercise Exercise Single Correct|51 Videos
VECTORS
CENGAGE PHYSICS ENGLISH|Exercise Exercise Multiple Correct|5 Videos
VECTORS
CENGAGE PHYSICS ENGLISH|Exercise Exercise 3.2|13 Videos
TRAVELLING WAVES
CENGAGE PHYSICS ENGLISH|Exercise Integer|9 Videos
WORK, POWER & ENERGY
CENGAGE PHYSICS ENGLISH|Exercise Archives (integer)|4 Videos

Similar Questions

Explore conceptually related problems

Two forces vec(F)_(1)=500N due east and vec(F)_(2)=250N due north have their common initial point. vec(F)_(2)-vec(F)_(1) is

An object is acted upon by the forces vec(F)_(1)=4hat(i)N and vec(F)_(2)=(hat(i)-hat(j))N . If the displacement of the object is D=(hat(i)+6hat(j)-hat(k)) m, the kinetic energy of the object

A body is at rest under the action of three forces, two of which are vec(F)_(1)= 4hat(i), vec(F)_(2)= 6hat(j) , the third force is

An object of mass 2 kg at rest at origin starts moving under the action of a force vec(F)=(3t^(2)hat(i)+4that(j))N The velocity of the object at t = 2 s will be -

A particle of mass 2 kg moves in the xy plane under the action of a constant force vec(F) where vec(F)=hat(i)-hat(j) . Initially the velocity of the particle is 2hat(j) . The velocity of the particle at time t is

A charged particle moves with velocity vec v = a hat i + d hat j in a magnetic field vec B = A hat i + D hat j. The force acting on the particle has magnitude F. Then,

The linear momentum of a particle is given by vec(P)=(a sin t hati- acos t hatj) kg- m//s . A force vec(F) is acting on the particle. Select correct alternative/s:

What is the direction of the force acting on a charged particle q, moving with a velocity vec(v) a uniform magnetic field vec(B) ?

A body placed in free space, is simultaneously acted upon by three forces vec(F_(1)),vec(F_(2)) " and " vec(F_(3)) . The body is in equilibrium and the forces vec(F_(1)) " and "vec(F_(2)) are known ot be 36 N due north and 27 N due east respectively. Which of the following best describes the force vec(F_(3)) ?

CENGAGE PHYSICS ENGLISH-VECTORS-Exercise Subjective

Unit vector hat(P) and hat(Q) are inclined at an angle theta. Prove th...
Text Solution
|
A sail boat sails 2km due east, 5km 37^(@) south of east, and finally...
Text Solution
|
Two forces of magnitudes P and Q are inclined at an angle (theta). The...
Text Solution
|
A vector vec(B) which has a magnitude 8.0 is added to a vector vec(A) ...
Text Solution
|
Three vector as shown in (figure) have magnitudes |vec(a)|=3,|vec(b)|=...
Text Solution
|
A bouy is attached to three tugboats by three ropes. The tugboats are ...
Text Solution
|
Two horizontal forces of magnitudes of 10N and P N act on a particle. ...
Text Solution
|
The position vectors of two balls are given by vec(r )(1)=2 (m)i+7(m...
Text Solution
|
A particle whose speed is 50ms^(-1) moves along the line from A(2,1) t...
Text Solution
|
A particle travels with speed 50ms^(-1) from the point (3,-7) in a dir...
Text Solution
|
A particle has an initial velocity 3 hat(i) + 4hat(j) and an accelerat...
Text Solution
|
Forces X,Y and Z have magnitudes 10N 5(sqrt(3)-1) N and 5(sqrt(3)+1) N...
Text Solution
|
A particle of m=5kg is momentarily at rest at x= at t=. It is acted up...
Text Solution
|
A spy plane is being tacked by a radar. At t=0, its position is report...
Text Solution
|
a. Calculate vec(r )=vec(a)-vec(b)+vec(c ), where vec(a)=5hat(i)+4hat(...
Text Solution
|
A force vec(F)=3hat(i)+2hat(j)+chat(k)N causes a displacement vec(r )=...
Text Solution
|
When two vectors of magnitudes P and Q are inclined at an angle theta,...
Text Solution
|
Find the magnitudes of the unknown forces if the sum of all forces is ...
Text Solution
|
Three boys are pulling a heavy trolled by means of three ropes. The bo...
Text Solution
|
If vec(A)=2hat(i)+hat(j) and vec(B)=hat(i)-hat(j), sketch vector graph...
Text Solution
|