Questions LLC
Login
or
Sign Up
Ask a New Question
Questions
Mathematics
The equation of motion of a particle at time ‘t’ is given by S =Ö(4t² + 8t + 9) thenacceleration is proportional to:
1 answer
s=k(4t^2+8t+9)
v=8kt+8
a=8k
You can
ask a new question
or
answer this question
.
Similar Questions
If the equation of motion of a particle is given by s = A cos(ωt + δ),
the particle is said to undergo simple harmonic motion.
Top answer:
To solve part b, we need to find the values of t for which the velocity of the particle is 0. We are
Read more.
If an equation of motion of a particle is given by s(t)= Acos(ùt + ä), the particle is said to undergo simple harmonic motion.
Top answer:
the velocity at time t is the derivative. the derivative of s(t) with respect to t = -A*sin(ùt +
Read more.
The velocity function (in meters per second) for a particle moving along a line is given by v(t)=t3–4t2. Find the displacement
Top answer:
To find the distance traveled by the particle during the time interval [-1, 6], we need to integrate
Read more.
The equation of motion of a particle in vertical SHM is given by y = (17 cm) sin 0.70t. (a) What is the particle's displacement
Top answer:
To find the particle's displacement, velocity, and acceleration at a given time, we can
Read more.
The equation of motion of a particle in vertical SHM is given by y = (10 cm) sin 0.80t.
(a) What is the particle's displacement
Top answer:
remember !! 0.8 rad y = 10•sin 0.8t = 10•sin 0.8•1.1 =7.7 cm y`= 10•0.8•cos0.8•1.1 =5.1
Read more.
Rectilinear Motion:
*Need help with these three!* Directions: The position function of a particle moving on a coordinate line is
Top answer:
#1 is t^2(t-6) ds/dt = 3t^2-12t = 3t(t-4) Since s(t) it has a double root at t=0, it starts by
Read more.
A particle is oscillating in simple harmonic motion. The time required for the particle to travel through one complete cycle is
Top answer:
oh and could you please explain
Read more.
Two particles A and B are in uniform circular motion about a common center. The acceleration of particle A is 4.7 times that of
Top answer:
Let's denote the acceleration of particle A as \(a_A\) and the acceleration of particle B as
Read more.
If the equation of motion of a particle is given by s = A cos(ωt + δ),
the particle is said to undergo simple harmonic motion.
Top answer:
The solution to t in the following equation is the right answer. s'(t) = -Aω sin(ωt + δ) = 0
Read more.
The position of a particle in rectilinear motion is given by s(t) = tln(1/t) for t>0, where t is in seconds.
Find the time (t>0)
Top answer:
s(t) = tln(1/t) = t(ln1 - lnt) = t(0 - lnt) = -t lnt v(t) = -t(1/t) - lnt = -1 - lnt a(t) = 0 - 1/t
Read more.
Related Questions
A Particle moves along the x-axis so that at any time t>0, its acceleration is given by a(t)= ln(1+2^t). If the velocity of the
The velocity of a particle on the x-axis is given by the differential equation dx/
dt= t^2/ 2 and the particle is at x = 4 when t
A particle in simple harmonic motion has a period of 0.4s. If the maximum speed attained during the motion is 0.3s, what is the
For positive constants k and g, the velocity, v, of a particle of mass m at time t is given by
v= mg/k(1−e^(−kt/m)) At what
The position of a particle in rectilinear motion is given by s(t) = tln(1/t) for t>0, where t is in seconds.
A. Find the time
A particle moves in a circle in such a way that the x- and y-coordinates of its motion are given in meters as functions of time
Which properties result from minimal interactions between molecules in a gas?
A. A characteristic geometric shape and limited
A particle moving with a constant acceleration describes in the last second of it's motion 9/25th of the whole distance.of it
study the motion of a particle of mass m in a central potential U(r) = γr^2 with
γ > 0. a) write the equations of motion in
The position function x(t) of a particle moving along an x axis is x = 6.00 - 8.00t2, with x in meters and t in seconds. (a) At