Answer:
When an object changes speed (increases/decreases) it results in acceleration/de acceleration, its velocity also changes.
Explanation:
Acceleration is the rate of change in velocity.An object can accelerate when speed increases, decreases or direction changes. All these instances involves a change in velocity.Velocity is a vector quantity thus it has magnitude and the direction.Acceleration due to change in direction is centripetal acceleration.The expression for finding acceleration is;
a=change in velocity/change in time
a=Δv/Δt in m/s²
Answer:
distance=6.11m
Explanation:
A basketball player is running at a constant speed of 2.5 m/s when he tosses a basketball upward with a speed of 6.0 m/s. How far does the player run before he catches the ball? Ignore air resistance. I got stuck because I wasn't sure which formula to use when approaching this problem. Does it involve an angle at all?
first of all we get the time it takes to reach the maximum height
then twice of the time it takes to reach maximum height will be the time of flight
from newtons equation of motion
v=u+at
v=0
u=6m/s
0=6-9.81t
t=.61s
the time of flight will be 1.22secs
how far it travels will then be d, the basketball player moves with a horizontal speed 2.5m/s towards the ball
distance=speed*time
distance=2.5m/s*1.22
distance=6.11m
The image in the attachment describes the situation of the fishing rod.
Answer: F = 10.8 N
Explanation: The image shows a fishing rod attached to an axis. To stay in equilibrium, <u>Torque</u> must be equal for the force of magnitude 18N and for the unknow force.
<u>Torque </u>(τ) is a measure of a force's tendency to cause rotation and, in physics, defined as:
τ = F.r.sin(θ)
F is the force acting on the object;
r is distance between where the torque is measured to where the force is applied;
θ is the angle between F and r;
For the fishing rod:
Assuming part (1) is related to unknown force:
Replacing the corresponding values:
F = 10.8
<u>The fishing line exert on the the rod a force of </u><u>10.8N</u>.
The volume of the sphere is given by V = 4/3 * pie * r^3. We seek dr/dt that the rate of change of the radius with respect to time.
V = 4/3 * pie * r^3
Since we know the rate at which the volume changes wrt time. We can plug it in to find dr/dt.
dV/dt = 36pie. But dV/dt = 4/3 * pie * 3r^2 * dr/dt
So we have that dr/dt = (dV/dt) / 4/3 * pie * 3r^2
So dr/dt = (36pie)/ 4/3 * pie * 3(4)^2
dr/dt = 113.112/ 201.0864 = 0.5624
U need to write better u egg head kid or tell your mom
