I believe this is an equation that could help solve your problem 2.99x+12.99y=43.92
Step-by-step explanation:
A rock is blasted straight upward at 180 ft/sec from the ground. Use parametric
equations to model the situation and find:
a. The height of the rock at time = 2 seconds.
b. The maximum height the rock reaches before hitting the ground.
A rock is blasted straight upward at 180 ft/sec from the ground. Use parametric
equations to model the situation and find:
a. The height of the rock at time = 2 seconds.
b. The maximum height the rock reaches before hitting the ground.
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A rock is blasted straight upward at 180 ft/sec from the ground. Use parametric
equations to model the situation and find:
a. The height of the rock at time = 2 seconds.
b. The maximum height the rock reaches before hitting the ground.
By definition, the weight is given by
F = m * g
Where,
m = mass
g = gravity.
We must then clear the mass:
m = F / g
Substituting the values
m = (300) / (9.81) = 30.58Kg
Answer
the bag can safely hold 30.58Kg of apples
